-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.70 Mb (on task=112), Smallest =   62642.23 Mb (on task=0), Average =   62686.03 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1889.83 Mb (on task=0), Smallest =    1798.36 Mb (on task=112), Average =    1846.04 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16336.73 Mb (on task=112), Average =   16350.58 Mb
AllocMem:	 Largest =    1889.83 Mb (on task=0), Smallest =    1798.36 Mb (on task=112), Average =    1846.04 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_000_z014p003/snap_000_z014p003.0.hdf5' on task=0 (contains 17171778 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  16986643  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     23352  (tot=     0000303834) masstab=0
Type 3 (bulge):   161783  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.0672444

Setting next time for line of sight file to Time_next= 0.09

Setting next time for snipshot file to Time_next= 0.0842219

Setting next time for fof output to Time_next= 0.0842219
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=3.7558 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
Before=179009
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=179009
After=201497
NTopleaves= 176310  NTopnodes=201497 (space for 244687)
gravity work-load balance=1.00076   memory-balance=1.00076   SPH work-load balance=0
iter=0 exchange of 0273125958 particles (ret=0)
domain decomposition done. (took 9.28554 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.97708 MByte in top-level domain structure

Allocated 503.735 MByte for BH-tree, and 0.672569 Mbyte for top-leaves.  (presently allocted 1707.41 MB)

Begin Ngb-tree construction.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1753.6 Mbyte (on task=43), Smallest = 1753.54 Mbyte, Average = 1753.58 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  43 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
  43 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
  43 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
  43 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
  43 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
  43 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
  43 2972 0          TopNodes      9.9925    1203.0075  domain_allocate()/domain.c/570
  43 2973 0   DomainNodeIndex      0.6726    1203.6801  force_treeallocate()/forcetree.c/4800
  43 2974 0        Nodes_base    258.7416    1462.4216  force_treeallocate()/forcetree.c/4803
  43 2975 0     Extnodes_base    215.6180    1678.0396  force_treeallocate()/forcetree.c/4811
  43 2976 0          Nextnode     15.0719    1693.1115  force_treeallocate()/forcetree.c/4820
  43 2977 0            Father     14.3032    1707.4147  force_treeallocate()/forcetree.c/4827
  43 2978 0           Ngblist      4.0897    1711.5044  density()/density.c/690
  43 2979 0              Left      8.1794    1719.6839  density()/density.c/692
  43 2980 0             Right      8.1794    1727.8633  density()/density.c/693
  43 2981 0    DataIndexTable      7.0175    1734.8809  density()/density.c/738
  43 2982 0      DataNodeList     18.7134    1753.5943  density()/density.c/740
----------------------------------------------------------------------------------------

Begin to compute FoF group catalogues...  (presently allocated=1707.41 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=183417
After=199673
NTopleaves= 174714  NTopnodes=199673 (space for 244687)
gravity work-load balance=1.00047   memory-balance=1.00047   SPH work-load balance=0
iter=0 exchange of 0273145485 particles (ret=0)
domain decomposition done. (took 3.65423 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.06058 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1202.92 MB)
Tree construction.

Start linking particles (presently allocated=1756.05 MB)
links on local processor done (took 1.12973 sec).
Marked=0014619023 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1857.65 MB) 
have done 0000038014 cross links (processed 0014619023, took 0.354166 sec)
have done 0000001852 cross links (processed 0000102017, took 0.0471709 sec)
have done 0000000199 cross links (processed 0000006724, took 0.0438802 sec)
have done 0000000029 cross links (processed 0000000726, took 0.043345 sec)
have done 0000000002 cross links (processed 0000000092, took 0.0434289 sec)
have done 0000000000 cross links (processed 0000000004, took 0.043103 sec)
Local groups found.

group finding took = 1.74368 sec
Start finding nearest dm-particle (presently allocated=1756.05 MB)
still finding nearest... (presently allocated=1845.5 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.111254 sec
compiling local group data and catalogue took = 1.11071 sec

Total number of groups with at least 32 particles: 4019
Largest group has 924 particles.
Total number of particles in groups: 0000248559

group properties are now allocated.. (presently allocated=1268.33 MB)
computation of group properties took = 0.0161779 sec
start global sorting of group catalogues number 0
LargestGroup = 0.727344; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0466421 sec
Group catalogues globally sorted. took = 0.379385 sec
starting saving of group catalogue number 0
data//groups_000_z014p003
Group catalogues number 0 saved. took = 0.609297 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.666432 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.285864 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.646375 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0191905824 particles. (took 12.489 sec)
ngb iteration 2: need to repeat for 0149561966 particles. (took 9.44428 sec)
ngb iteration 3: need to repeat for 0139530946 particles. (took 6.34805 sec)
ngb iteration 4: need to repeat for 0129264806 particles. (took 5.74184 sec)
ngb iteration 5: need to repeat for 0114306836 particles. (took 5.30629 sec)
ngb iteration 6: need to repeat for 0091016531 particles. (took 4.73719 sec)
ngb iteration 7: need to repeat for 0062930849 particles. (took 3.98182 sec)
ngb iteration 8: need to repeat for 0038405689 particles. (took 2.95414 sec)
ngb iteration 9: need to repeat for 0021517863 particles. (took 1.99652 sec)
ngb iteration 10: need to repeat for 0011459586 particles. (took 1.23046 sec)
ngb iteration 11: need to repeat for 0005934285 particles. (took 0.67865 sec)
ngb iteration 12: need to repeat for 0003028134 particles. (took 0.376323 sec)
ngb iteration 13: need to repeat for 0001532629 particles. (took 0.239879 sec)
ngb iteration 14: need to repeat for 0000629075 particles. (took 0.16268 sec)
ngb iteration 15: need to repeat for 0000045086 particles. (took 0.106612 sec)
ngb iteration 16: need to repeat for 0000009908 particles. (took 0.0509951 sec)
ngb iteration 17: need to repeat for 0000003454 particles. (took 0.0434291 sec)
ngb iteration 18: need to repeat for 0000001279 particles. (took 0.0415609 sec)
ngb iteration 19: need to repeat for 0000000457 particles. (took 0.0407631 sec)
ngb iteration 20: need to repeat for 0000000185 particles. (took 0.040741 sec)
ngb iteration 21: need to repeat for 0000000072 particles. (took 0.0406651 sec)
ngb iteration 22: need to repeat for 0000000019 particles. (took 0.0405791 sec)
ngb iteration 23: need to repeat for 0000000004 particles. (took 0.0406849 sec)
final operations ... 
density and smoothing length for species 1 took 56.4962 sec
Tree construction.
tree build took 0.651721 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.282448 sec
Tree construction.
tree build took 0.646415 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.283088 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.167635 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 2.08596 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.64548 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.187872 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 2.08137 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.167341 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 2.08912 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.839808 sec
saving densities took 2.91773 sec

Number of FOF halos treated with collective SubFind code = 0
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 4019 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 64 - 10284 

subfind_exchange()() took 0.172334 sec
processing of collective halos took 3.09944e-06 sec
sort of local particles()() took 0.803243 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 0.0199611 sec

Task 163: testing particles ...
Task 44: testing particles ...
Task 201: testing particles ...
Task 19: testing particles ...
Task 123: testing particles ...
Task 37: testing particles ...
Task 83: testing particles ...
Task 125: testing particles ...
Task 102: testing particles ...
Task 155: testing particles ...
Task 26: testing particles ...
Task 27: testing particles ...
Task 202: testing particles ...
Task 206: testing particles ...
Task 135: testing particles ...
Task 106: testing particles ...
Task 25: testing particles ...
Task 210: testing particles ...
Task 43: testing particles ...
Task 107: testing particles ...
Task 74: testing particles ...
Task 78: testing particles ...
Task 146: testing particles ...
Task 190: testing particles ...
Task 194: testing particles ...
Task 14: testing particles ...
Task 228: testing particles ...
Task 236: testing particles ...
Task 141: testing particles ...
Task 47: testing particles ...
Task 227: testing particles ...
Task 60: testing particles ...
Task 52: testing particles ...
Task 164: testing particles ...
Task 91: testing particles ...
Task 250: testing particles ...
Task 68: testing particles ...
Task 62: testing particles ...
Task 147: testing particles ...
Task 158: testing particles ...
Task 220: testing particles ...
Task 169: testing particles ...
Task 69: testing particles ...
Task 173: testing particles ...
Task 79: testing particles ...
Task 36: testing particles ...
Task 180: testing particles ...
Task 55: testing particles ...
Task 58: testing particles ...
Task 211: testing particles ...
Task 33: testing particles ...
Task 3: testing particles ...
Task 195: testing particles ...
Task 226: testing particles ...
Task 196: testing particles ...
Task 222: testing particles ...
Task 98: testing particles ...
Task 94: testing particles ...
Task 103: testing particles ...
Task 203: testing particles ...
Task 97: testing particles ...
Task 143: testing particles ...
Task 244: testing particles ...
Task 56: testing particles ...
Task 77: testing particles ...
Task 92: testing particles ...
Task 139: testing particles ...
Task 172: testing particles ...
Task 34: testing particles ...
Task 188: testing particles ...
Task 114: testing particles ...
Task 237: testing particles ...
Task 243: testing particles ...
Task 105: testing particles ...
Task 154: testing particles ...
Task 65: testing particles ...
Task 2: testing particles ...
Task 248: testing particles ...
Task 17: testing particles ...
Task 28: testing particles ...
Task 255: testing particles ...
Task 132: testing particles ...
Task 137: testing particles ...
Task 199: testing particles ...
unsorting of local particles()() took 0.674436 sec
Task 0: testing particles ...
Task 254: testing particles ...
Task 104: testing particles ...
Task 122: testing particles ...
Task 247: testing particles ...
Task 93: testing particles ...
Task 183: testing particles ...
Task 170: testing particles ...
Task 40: testing particles ...
Task 38: testing particles ...
Task 230: testing particles ...
Task 51: testing particles ...
Task 234: testing particles ...
Task 205: testing particles ...
Task 127: testing particles ...
Task 212: testing particles ...
Task 76: testing particles ...
Task 219: testing particles ...
Task 99: testing particles ...
Task 110: testing particles ...
Task 8: testing particles ...
Task 10: testing particles ...
Task 54: testing particles ...
Task 249: testing particles ...
Task 116: testing particles ...
Task 75: testing particles ...
Task 18: testing particles ...
Task 85: testing particles ...
Task 63: testing particles ...
Task 81: testing particles ...
Task 245: testing particles ...
Task 251: testing particles ...
Task 153: testing particles ...
Task 166: testing particles ...
Task 11: testing particles ...
Task 42: testing particles ...
Task 131: testing particles ...
Task 70: testing particles ...
Task 176: testing particles ...
Task 130: testing particles ...
Task 148: testing particles ...
Task 29: testing particles ...
Task 111: testing particles ...
Task 113: testing particles ...
Task 208: testing particles ...
Task 216: testing particles ...
Task 133: testing particles ...
Task 90: testing particles ...
Task 184: testing particles ...
Task 217: testing particles ...
Task 238: testing particles ...
Task 191: testing particles ...
Task 96: testing particles ...
Task 120: testing particles ...
Task 157: testing particles ...
Task 218: testing particles ...
Task 186: testing particles ...
Task 193: testing particles ...
Task 118: testing particles ...
Task 138: testing particles ...
Task 179: testing particles ...
Task 119: testing particles ...
Task 177: testing particles ...
Task 12: testing particles ...
Task 231: testing particles ...
Task 175: testing particles ...
Task 232: testing particles ...
Task 197: testing particles ...
Task 239: testing particles ...
Task 115: testing particles ...
Task 57: testing particles ...
Task 145: testing particles ...
Task 214: testing particles ...
Task 149: testing particles ...
Task 253: testing particles ...
Task 50: testing particles ...
Task 161: testing particles ...
Task 6: testing particles ...
Task 89: testing particles ...
Task 73: testing particles ...
Task 182: testing particles ...
Task 246: testing particles ...
Task 59: testing particles ...
Task 225: testing particles ...
Task 168: testing particles ...
Task 189: testing particles ...
Task 165: testing particles ...
Task 213: testing particles ...
Task 5: testing particles ...
Task 9: testing particles ...
Task 121: testing particles ...
Task 48: testing particles ...
Task 209: testing particles ...
Task 23: testing particles ...
Task 49: testing particles ...
Task 240: testing particles ...
Task 84: testing particles ...
Task 167: testing particles ...
Task 4: testing particles ...
Task 87: testing particles ...
Task 134: testing particles ...
Task 20: testing particles ...
Task 53: testing particles ...
Task 67: testing particles ...
Task 235: testing particles ...
Task 187: testing particles ...
Task 7: testing particles ...
Task 162: testing particles ...
Task 242: testing particles ...
Task 95: testing particles ...
Task 185: testing particles ...
Task 171: testing particles ...
Task 117: testing particles ...
Task 24: testing particles ...
Task 16: testing particles ...
Task 31: testing particles ...
Task 150: testing particles ...
Task 15: testing particles ...
Task 178: testing particles ...
Task 200: testing particles ...
Task 109: testing particles ...
Task 181: testing particles ...
Task 174: testing particles ...
Task 13: testing particles ...
Task 233: testing particles ...
Task 46: testing particles ...
Task 64: testing particles ...
Task 156: testing particles ...
Task 71: testing particles ...
Task 159: testing particles ...
Task 21: testing particles ...
Task 80: testing particles ...
Task 140: testing particles ...
Task 152: testing particles ...
Task 1: testing particles ...
Task 41: testing particles ...
Task 66: testing particles ...
Task 61: testing particles ...
Task 223: testing particles ...
Task 39: testing particles ...
Task 241: testing particles ...
Task 22: testing particles ...
Task 124: testing particles ...
Task 86: testing particles ...
Task 151: testing particles ...
Task 144: testing particles ...
Task 112: testing particles ...
Task 192: testing particles ...
Task 207: testing particles ...
Task 136: testing particles ...
Task 82: testing particles ...
Task 101: testing particles ...
Task 100: testing particles ...
Task 45: testing particles ...
Task 252: testing particles ...
Task 126: testing particles ...
Task 128: testing particles ...
Task 229: testing particles ...
Task 215: testing particles ...
Task 198: testing particles ...
Task 32: testing particles ...
Task 35: testing particles ...
Task 129: testing particles ...
Task 221: testing particles ...
Task 108: testing particles ...
Task 142: testing particles ...
Task 224: testing particles ...
Task 88: testing particles ...
Task 204: testing particles ...
Task 72: testing particles ...
Task 30: testing particles ...
Task 160: testing particles ...
subfind_exchange() (for return to original CPU)  took 0.14278 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1268.51 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1328.07 MB)
Before=186625
After=202761
NTopleaves= 177416  NTopnodes=202761 (space for 244687)
gravity work-load balance=1.00079   memory-balance=1.00079   SPH work-load balance=0
iter=0 exchange of 0272699519 particles (ret=0)
domain decomposition done. (took 4.12642 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.91922 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000003834 particles. (took 0.014359 sec)
SO iteration 2: need to repeat for 0000003834 particles. (took 0.00165009 sec)
SO iteration 3: need to repeat for 0000003834 particles. (took 0.00166488 sec)
SO iteration 4: need to repeat for 0000003834 particles. (took 0.0016191 sec)
SO iteration 5: need to repeat for 0000003834 particles. (took 0.00166607 sec)
SO iteration 6: need to repeat for 0000003834 particles. (took 0.00174809 sec)
SO iteration 7: need to repeat for 0000003834 particles. (took 0.00163913 sec)
SO iteration 8: need to repeat for 0000003834 particles. (took 0.00162601 sec)
SO iteration 9: need to repeat for 0000003834 particles. (took 0.00159907 sec)
SO iteration 10: need to repeat for 0000003834 particles. (took 0.00194502 sec)
SO iteration 11: need to repeat for 0000003834 particles. (took 0.00192499 sec)
SO iteration 12: need to repeat for 0000003834 particles. (took 0.00171804 sec)
SO iteration 13: need to repeat for 0000003834 particles. (took 0.00171399 sec)
SO iteration 14: need to repeat for 0000003834 particles. (took 0.00172305 sec)
SO iteration 15: need to repeat for 0000003834 particles. (took 0.00169396 sec)
SO iteration 16: need to repeat for 0000000176 particles. (took 0.00174189 sec)
SO iteration 1: need to repeat for 0000003834 particles. (took 0.00175095 sec)
SO iteration 2: need to repeat for 0000003834 particles. (took 0.0016861 sec)
SO iteration 3: need to repeat for 0000003834 particles. (took 0.00167608 sec)
SO iteration 4: need to repeat for 0000003834 particles. (took 0.00164604 sec)
SO iteration 5: need to repeat for 0000003834 particles. (took 0.00164294 sec)
SO iteration 6: need to repeat for 0000003834 particles. (took 0.00167012 sec)
SO iteration 7: need to repeat for 0000003834 particles. (took 0.00173903 sec)
SO iteration 8: need to repeat for 0000003834 particles. (took 0.00163293 sec)
SO iteration 9: need to repeat for 0000003834 particles. (took 0.00167799 sec)
SO iteration 10: need to repeat for 0000003834 particles. (took 0.00167203 sec)
SO iteration 11: need to repeat for 0000003834 particles. (took 0.00155091 sec)
SO iteration 12: need to repeat for 0000003834 particles. (took 0.00162506 sec)
SO iteration 13: need to repeat for 0000003834 particles. (took 0.00162292 sec)
SO iteration 14: need to repeat for 0000003834 particles. (took 0.00168204 sec)
SO iteration 15: need to repeat for 0000003834 particles. (took 0.00159502 sec)
SO iteration 16: need to repeat for 0000003135 particles. (took 0.0015471 sec)
SO iteration 17: need to repeat for 0000000145 particles. (took 0.00143695 sec)
SO iteration 1: need to repeat for 0000003834 particles. (took 0.00177002 sec)
SO iteration 2: need to repeat for 0000003834 particles. (took 0.00158691 sec)
SO iteration 3: need to repeat for 0000003834 particles. (took 0.00150895 sec)
SO iteration 4: need to repeat for 0000003834 particles. (took 0.00145912 sec)
SO iteration 5: need to repeat for 0000003834 particles. (took 0.00148487 sec)
SO iteration 6: need to repeat for 0000003834 particles. (took 0.00148416 sec)
SO iteration 7: need to repeat for 0000003834 particles. (took 0.0014782 sec)
SO iteration 8: need to repeat for 0000003834 particles. (took 0.00149798 sec)
SO iteration 9: need to repeat for 0000003834 particles. (took 0.00148988 sec)
SO iteration 10: need to repeat for 0000003834 particles. (took 0.00150204 sec)
SO iteration 11: need to repeat for 0000003834 particles. (took 0.00146484 sec)
SO iteration 12: need to repeat for 0000003834 particles. (took 0.00146508 sec)
SO iteration 13: need to repeat for 0000003834 particles. (took 0.00148511 sec)
SO iteration 14: need to repeat for 0000003834 particles. (took 0.00146914 sec)
SO iteration 15: need to repeat for 0000003834 particles. (took 0.00146699 sec)
SO iteration 16: need to repeat for 0000003834 particles. (took 0.00149798 sec)
SO iteration 17: need to repeat for 0000003795 particles. (took 0.00146794 sec)
SO iteration 18: need to repeat for 0000001317 particles. (took 0.00163794 sec)
SO iteration 19: need to repeat for 0000000002 particles. (took 0.000852823 sec)
SO iteration 1: need to repeat for 0000003834 particles. (took 0.001647 sec)
SO iteration 2: need to repeat for 0000003834 particles. (took 0.0016129 sec)
SO iteration 3: need to repeat for 0000003834 particles. (took 0.00176191 sec)
SO iteration 4: need to repeat for 0000003834 particles. (took 0.00164914 sec)
SO iteration 5: need to repeat for 0000003834 particles. (took 0.0019269 sec)
SO iteration 6: need to repeat for 0000003834 particles. (took 0.00163889 sec)
SO iteration 7: need to repeat for 0000003834 particles. (took 0.00169802 sec)
SO iteration 8: need to repeat for 0000003834 particles. (took 0.00165915 sec)
SO iteration 9: need to repeat for 0000003834 particles. (took 0.00170183 sec)
SO iteration 10: need to repeat for 0000003834 particles. (took 0.00161695 sec)
SO iteration 11: need to repeat for 0000003834 particles. (took 0.00163507 sec)
SO iteration 12: need to repeat for 0000003834 particles. (took 0.001616 sec)
SO iteration 13: need to repeat for 0000003834 particles. (took 0.00161886 sec)
SO iteration 14: need to repeat for 0000003834 particles. (took 0.00169396 sec)
SO iteration 15: need to repeat for 0000003834 particles. (took 0.00160098 sec)
SO iteration 16: need to repeat for 0000000092 particles. (took 0.00162601 sec)
SO iteration 1: need to repeat for 0000003834 particles. (took 0.00165796 sec)
SO iteration 2: need to repeat for 0000003834 particles. (took 0.00159502 sec)
SO iteration 3: need to repeat for 0000003834 particles. (took 0.00168395 sec)
SO iteration 4: need to repeat for 0000003834 particles. (took 0.001791 sec)
SO iteration 5: need to repeat for 0000003834 particles. (took 0.00170994 sec)
SO iteration 6: need to repeat for 0000003834 particles. (took 0.00162983 sec)
SO iteration 7: need to repeat for 0000003834 particles. (took 0.0017581 sec)
SO iteration 8: need to repeat for 0000003834 particles. (took 0.00184298 sec)
SO iteration 9: need to repeat for 0000003834 particles. (took 0.00162792 sec)
SO iteration 10: need to repeat for 0000003834 particles. (took 0.00159907 sec)
SO iteration 11: need to repeat for 0000003834 particles. (took 0.00165486 sec)
SO iteration 12: need to repeat for 0000003834 particles. (took 0.00162506 sec)
SO iteration 13: need to repeat for 0000003834 particles. (took 0.00159287 sec)
SO iteration 14: need to repeat for 0000003834 particles. (took 0.00183797 sec)
SO iteration 15: need to repeat for 0000003834 particles. (took 0.00164795 sec)
SO iteration 16: need to repeat for 0000000176 particles. (took 0.00170517 sec)
SO iteration 1: need to repeat for 0000003834 particles. (took 0.00164485 sec)
SO iteration 2: need to repeat for 0000003834 particles. (took 0.00156403 sec)
SO iteration 3: need to repeat for 0000003834 particles. (took 0.00158906 sec)
SO iteration 4: need to repeat for 0000003834 particles. (took 0.0015409 sec)
SO iteration 5: need to repeat for 0000003834 particles. (took 0.00157118 sec)
SO iteration 6: need to repeat for 0000003834 particles. (took 0.00159717 sec)
SO iteration 7: need to repeat for 0000003834 particles. (took 0.00155807 sec)
SO iteration 8: need to repeat for 0000003834 particles. (took 0.00159097 sec)
SO iteration 9: need to repeat for 0000003834 particles. (took 0.00154305 sec)
SO iteration 10: need to repeat for 0000003834 particles. (took 0.00155091 sec)
SO iteration 11: need to repeat for 0000003834 particles. (took 0.00154018 sec)
SO iteration 12: need to repeat for 0000003834 particles. (took 0.00155401 sec)
SO iteration 13: need to repeat for 0000003834 particles. (took 0.0015161 sec)
SO iteration 14: need to repeat for 0000003834 particles. (took 0.00153399 sec)
SO iteration 15: need to repeat for 0000003834 particles. (took 0.00160289 sec)
SO iteration 16: need to repeat for 0000003138 particles. (took 0.00153303 sec)
SO iteration 17: need to repeat for 0000000145 particles. (took 0.00137901 sec)
SO iteration 1: need to repeat for 0000003834 particles. (took 0.00165415 sec)
SO iteration 2: need to repeat for 0000003834 particles. (took 0.00157499 sec)
SO iteration 3: need to repeat for 0000003834 particles. (took 0.00152016 sec)
SO iteration 4: need to repeat for 0000003834 particles. (took 0.00148296 sec)
SO iteration 5: need to repeat for 0000003834 particles. (took 0.00149608 sec)
SO iteration 6: need to repeat for 0000003834 particles. (took 0.00148296 sec)
SO iteration 7: need to repeat for 0000003834 particles. (took 0.00146008 sec)
SO iteration 8: need to repeat for 0000003834 particles. (took 0.00148988 sec)
SO iteration 9: need to repeat for 0000003834 particles. (took 0.00145102 sec)
SO iteration 10: need to repeat for 0000003834 particles. (took 0.00148511 sec)
SO iteration 11: need to repeat for 0000003834 particles. (took 0.00148582 sec)
SO iteration 12: need to repeat for 0000003834 particles. (took 0.00146508 sec)
SO iteration 13: need to repeat for 0000003834 particles. (took 0.00153303 sec)
SO iteration 14: need to repeat for 0000003834 particles. (took 0.00148797 sec)
SO iteration 15: need to repeat for 0000003834 particles. (took 0.00150704 sec)
SO iteration 16: need to repeat for 0000003834 particles. (took 0.0014782 sec)
SO iteration 17: need to repeat for 0000003795 particles. (took 0.00147295 sec)
SO iteration 18: need to repeat for 0000001317 particles. (took 0.00142717 sec)
SO iteration 19: need to repeat for 0000000002 particles. (took 0.00086689 sec)
determining spherical overdensity masses took 0.209746 sec
finding spherical overdensity particles took 0.014792 sec
determining contamination of halos took 0.237727 sec
Global sort of Groups took 0.116509 sec
Global sort of SubGroups took 0.399655 sec
Global sort of IDs took 0.032012 sec
Writing block 0 (GLEN), n=16, ptype=0, dtype=0, ndim=1, bpb=4 bytes=64d
Writing block 1 (GOFF), n=16, ptype=0, dtype=0, ndim=1, bpb=4 bytes=64d
Writing block 2 (MTOT), n=16, ptype=0, dtype=1, ndim=1, bpb=4 bytes=64d
Writing block 3 (GPOS), n=16, ptype=0, dtype=1, ndim=3, bpb=4 bytes=192d
Writing block 4 (MMEA), n=16, ptype=0, dtype=1, ndim=1, bpb=4 bytes=64d
Writing block 5 (RMEA), n=16, ptype=0, dtype=1, ndim=1, bpb=4 bytes=64d
Writing block 6 (MCRI), n=16, ptype=0, dtype=1, ndim=1, bpb=4 bytes=64d
Writing block 7 (RCRI), n=16, ptype=0, dtype=1, ndim=1, bpb=4 bytes=64d
Writing block 8 (MTOP), n=16, ptype=0, dtype=1, ndim=1, bpb=4 bytes=64d
Writing block 9 (RTOP), n=16, ptype=0, dtype=1, ndim=1, bpb=4 bytes=64d
Writing block 17 (NCON), n=16, ptype=0, dtype=0, ndim=1, bpb=4 bytes=64d
Writing block 18 (MCON), n=16, ptype=0, dtype=1, ndim=1, bpb=4 bytes=64d
Writing block 22 (NSUB), n=16, ptype=0, dtype=0, ndim=1, bpb=4 bytes=64d
Writing block 23 (FSUB), n=16, ptype=0, dtype=0, ndim=1, bpb=4 bytes=64d
Writing block 24 (SLEN), n=17, ptype=1, dtype=0, ndim=1, bpb=4 bytes=68d
Writing block 25 (SOFF), n=17, ptype=1, dtype=0, ndim=1, bpb=4 bytes=68d
Writing block 27 (MSUB), n=17, ptype=1, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 28 (SPOS), n=17, ptype=1, dtype=1, ndim=3, bpb=4 bytes=204d
Writing block 29 (SVEL), n=17, ptype=1, dtype=1, ndim=3, bpb=4 bytes=204d
Writing block 30 (SCM ), n=17, ptype=1, dtype=1, ndim=3, bpb=4 bytes=204d
Writing block 33 (VMAX), n=17, ptype=1, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 34 (RMAX), n=17, ptype=1, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 35 (RHMS), n=17, ptype=1, dtype=1, ndim=6, bpb=4 bytes=408d
Writing block 36 (MTRH), n=17, ptype=1, dtype=1, ndim=6, bpb=4 bytes=408d
Writing block 37 (MBID), n=17, ptype=1, dtype=2, ndim=1, bpb=8 bytes=136d
Writing block 38 (GRNR), n=17, ptype=1, dtype=0, ndim=1, bpb=4 bytes=68d
Writing block 39 (SUBN), n=17, ptype=1, dtype=0, ndim=1, bpb=4 bytes=68d
Writing block 40 (SMST), n=17, ptype=1, dtype=1, ndim=6, bpb=4 bytes=408d
Writing block 53 (PID ), n=413, ptype=2, dtype=2, ndim=1, bpb=8 bytes=3304d
Writing block 54 (SLEN), n=17, ptype=1, dtype=0, ndim=6, bpb=4 bytes=408d
Writing block 55 (STEN), n=17, ptype=1, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 56 (SKEN), n=17, ptype=1, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 57 (SUEN), n=17, ptype=1, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 58 (SUIT), n=17, ptype=1, dtype=1, ndim=9, bpb=4 bytes=612d
Writing block 59 (BHMA), n=17, ptype=1, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 60 (BHMD), n=17, ptype=1, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 61 (SVD ), n=17, ptype=1, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 62 (SVDH), n=17, ptype=1, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 63 (HMPR), n=17, ptype=1, dtype=1, ndim=6, bpb=4 bytes=408d
Writing block 64 (SSFR), n=17, ptype=1, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 65 (SSA ), n=17, ptype=1, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 66 (SSBZ), n=17, ptype=1, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 67 (SSIM), n=17, ptype=1, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 68 (SSPI), n=17, ptype=4, dtype=1, ndim=3, bpb=4 bytes=204d
Writing block 69 (GSPI), n=17, ptype=1, dtype=1, ndim=3, bpb=4 bytes=204d
Writing block 70 (FSPI), n=17, ptype=5, dtype=1, ndim=3, bpb=4 bytes=204d
Writing block 71 (SFM ), n=17, ptype=5, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 72 (SFMT), n=17, ptype=5, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 73 (SFME), n=17, ptype=5, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 74 (SFAE), n=17, ptype=5, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 75 (SFKE), n=17, ptype=5, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 76 (SFTE), n=17, ptype=5, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 77 (SMWP), n=17, ptype=5, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 78 (SMM ), n=17, ptype=5, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 79 (SMMS), n=17, ptype=5, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 80 (SFZ ), n=17, ptype=5, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 81 (SFZS), n=17, ptype=5, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 82 (SSIA), n=17, ptype=5, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 83 (SIAS), n=17, ptype=5, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 84 (SMET), n=17, ptype=5, dtype=1, ndim=9, bpb=4 bytes=612d
Writing block 85 (SMTS), n=17, ptype=5, dtype=1, ndim=9, bpb=4 bytes=612d
Writing block 86 (MF1 ), n=17, ptype=5, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 87 (MeF1), n=17, ptype=5, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 88 (MF  ), n=17, ptype=5, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 89 (MeF2), n=17, ptype=5, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 90 (MFA ), n=17, ptype=5, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 91 (MeFA), n=17, ptype=5, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 92 (NSPI), n=17, ptype=6, dtype=1, ndim=3, bpb=4 bytes=204d
Writing block 93 (NFM ), n=17, ptype=6, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 94 (NFMT), n=17, ptype=6, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 95 (NFME), n=17, ptype=6, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 96 (NFAE), n=17, ptype=6, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 97 (NFKE), n=17, ptype=6, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 98 (NFTE), n=17, ptype=6, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 99 (SMWP), n=17, ptype=6, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 100 (SMM ), n=17, ptype=6, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 101 (SMMS), n=17, ptype=6, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 102 (SSIA), n=17, ptype=6, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 103 (SIAS), n=17, ptype=6, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 104 (SMET), n=17, ptype=6, dtype=1, ndim=9, bpb=4 bytes=612d
Writing block 105 (SMTS), n=17, ptype=6, dtype=1, ndim=9, bpb=4 bytes=612d
Writing block 106 (MF1 ), n=17, ptype=6, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 107 (MeF1), n=17, ptype=6, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 108 (MF2 ), n=17, ptype=6, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 109 (MeF2), n=17, ptype=6, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 110 (MFA ), n=17, ptype=6, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 111 (MeFA), n=17, ptype=6, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 112 (SM  ), n=17, ptype=4, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 113 (SFKE), n=17, ptype=4, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 114 (SFAE), n=17, ptype=4, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 115 (SMWP), n=17, ptype=4, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 116 (SMM ), n=17, ptype=4, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 117 (SMMS), n=17, ptype=4, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 118 (SSIA), n=17, ptype=4, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 119 (SIAS), n=17, ptype=4, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 120 (SMET), n=17, ptype=4, dtype=1, ndim=9, bpb=4 bytes=612d
Writing block 121 (SMTS), n=17, ptype=4, dtype=1, ndim=9, bpb=4 bytes=612d
Writing block 122 (MF1 ), n=17, ptype=4, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 123 (MeF1), n=17, ptype=4, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 124 (MF2 ), n=17, ptype=4, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 125 (MeF2), n=17, ptype=4, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 126 (MFA ), n=17, ptype=4, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 127 (MeFA), n=17, ptype=4, dtype=1, ndim=1, bpb=4 bytes=68d
Writing block 128 (MMe5), n=16, ptype=0, dtype=1, ndim=1, bpb=4 bytes=64d
Writing block 129 (RMe5), n=16, ptype=0, dtype=1, ndim=1, bpb=4 bytes=64d
Writing block 130 (MCr5), n=16, ptype=0, dtype=1, ndim=1, bpb=4 bytes=64d
Writing block 131 (RCr5), n=16, ptype=0, dtype=1, ndim=1, bpb=4 bytes=64d
Writing block 132 (MMe2), n=16, ptype=0, dtype=1, ndim=1, bpb=4 bytes=64d
Writing block 133 (RMe2), n=16, ptype=0, dtype=1, ndim=1, bpb=4 bytes=64d
Writing block 134 (MCr2), n=16, ptype=0, dtype=1, ndim=1, bpb=4 bytes=64d
Writing block 135 (RCr2), n=16, ptype=0, dtype=1, ndim=1, bpb=4 bytes=64d
Writing block 136 (MAPT), n=17, ptype=7, dtype=1, ndim=60, bpb=4 bytes=4080d
Writing block 137 (SAPT), n=17, ptype=8, dtype=1, ndim=10, bpb=4 bytes=680d
Writing block 138 (VAPT), n=17, ptype=9, dtype=1, ndim=10, bpb=4 bytes=680d
Writing block 139 (BEGY), n=413, ptype=2, dtype=1, ndim=1, bpb=4 bytes=1652d
Subgroup catalogues saved. took = 0.719012 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 7.023959e-01
 eagle_ph_key_ort: type= 2 timed by volker 4.464006e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.739094e-02
 eagle_ph_key_ort: type= 4 timed by volker 4.739094e-02
 eagle_ph_key_ort: type= 5 timed by volker 4.739094e-02
 eagle_ph_key_ort: timing parallel sort = 8.025310e-01
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 2786082136

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 1293.03 Mbyte (on task=17), Smallest = 1292.83 Mbyte, Average = 1292.95 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  17 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
  17 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
  17 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
  17 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
  17 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
  17 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
  17 2972 0          TopNodes      9.9020    1202.9170  domain_allocate()/domain.c/570
 eagle_fetch_elements: max_bytes= 320, max_elements= 2767486 number of bytes = 885595520
  17 2973 0         FOF_PList     24.5294    1227.4464  fof_fof()/fof.c/249
  17 2974 0         FOF_GList     40.8823    1268.3287  fof_fof()/fof.c/337
  17 2976 0          SubGroup      0.1283    1268.4881  subfind()/subfind.c/376
  17 2977 0   sort_index_data     24.5349    1293.0231  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3341.01 Mbyte (on task=40), Smallest = 3339.94 Mbyte, Average = 3340.69 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  40 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
  40 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
  40 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
  40 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
  40 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
  40 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
  40 2972 0          TopNodes      9.9020    1202.9170  domain_allocate()/domain.c/570
  40 2973 0         FOF_PList     24.5288    1227.4459  fof_fof()/fof.c/249
  40 2974 0         FOF_GList     40.8814    1268.3273  fof_fof()/fof.c/337
  40 2976 0          SubGroup      0.1174    1268.4748  subfind()/subfind.c/376
  40 2977 0   sort_index_data     24.5390    1293.0138  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
  40 2978 0          sort_idx     10.5571    1303.5709  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
  40 2979 0       idx_to_recv     10.5571    1314.1280  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
  40 2980 0       idx_to_send     10.5571    1324.6852  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
  40 2981 0           sendbuf    844.5697    2169.2549  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
  40 2982 0           recvbuf    844.5697    3013.8246  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
  40 2983 0            result    327.1869    3341.0114  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.662444e+00
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 2786082136
 eagle_fetch_elements: max_bytes= 504, max_elements= 2105376 number of bytes = 1061109504
 eagle_ph_key_ort: timing parallel SphP exchange = 1.177907e-02
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 2786082136
 eagle_fetch_elements: max_bytes= 384, max_elements= 2753184 number of bytes = 1057222656
 eagle_ph_key_ort: timing parallel MetP exchange = 4.858971e-04
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 2786082136
 eagle_fetch_elements: max_bytes= 256, max_elements= 4098251 number of bytes = 1049152256
 eagle_ph_key_ort: timing parallel BHP exchange = 4.801750e-04
Sorting particle-data by peano-hilbert key took = 3.85703 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 2767486 number of bytes= 885595520
 eagle_ph_restore: timing parallel P exchange = 2.586133e+00
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 2105376 number of bytes= 1061109504
 eagle_ph_restore: timing parallel SphP exchange = 1.159692e-02
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2753184 number of bytes= 1057222656
 eagle_ph_restore: timing parallel MetP exchange = 5.459785e-04
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 4098251 number of bytes= 1049152256
 eagle_ph_restore: timing parallel BHP exchange = 5.869865e-04
Restoring original order after ph key sorting took = 2.61521 sec

finished writing particle file...

Finished with SUBFIND.  (total time=87.4236 sec)

Finished computing FoF groups.  (presently allocated=1202.92 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=183321
After=199761
NTopleaves= 174791  NTopnodes=199761 (space for 244687)
gravity work-load balance=1.00048   memory-balance=1.00048   SPH work-load balance=0
iter=0 exchange of 0273162978 particles (ret=0)
domain decomposition done. (took 3.69171 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.05655 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
task 16: endrun called with an error level of 124


task 16: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 64: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
task 64: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
task 80: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 80: endrun called with an error level of 124


task 96: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
task 96: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 112: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
task 112: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
task 128: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
task 128: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 144: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 144: endrun called with an error level of 124


task 160: endrun called with an error level of 124


task 160: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
task 176: endrun called with an error level of 124


task 176: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 192: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
task 192: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 208: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 208: endrun called with an error level of 124


task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 240: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 240: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
Finished FOF, total time doing fof/subfind = 101.603 s
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
task 0: endrun called with an error level of 124


    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.94 Mb (on task=112), Smallest =   62645.84 Mb (on task=0), Average =   62686.85 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1886.23 Mb (on task=0), Smallest =    1798.12 Mb (on task=112), Average =    1845.23 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16336.98 Mb (on task=112), Average =   16350.73 Mb
AllocMem:	 Largest =    1886.23 Mb (on task=0), Smallest =    1798.12 Mb (on task=112), Average =    1845.23 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_001_z006p772/snap_001_z006p772.0.hdf5' on task=0 (contains 17299007 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  17120777  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     15941  (tot=     0000303834) masstab=0
Type 3 (bulge):   162289  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.130979

Setting next time for line of sight file to Time_next= 0.128769

Setting next time for snipshot file to Time_next= 0.141806

Setting next time for fof output to Time_next= 0.141806
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=3.77588 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
Before=178449
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=178449
After=192793
NTopleaves= 168694  NTopnodes=192793 (space for 244687)
gravity work-load balance=1.00039   memory-balance=1.00039   SPH work-load balance=0
iter=0 exchange of 0272924950 particles (ret=0)
domain decomposition done. (took 9.60839 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.37552 MByte in top-level domain structure

Allocated 502.24 MByte for BH-tree, and 0.643517 Mbyte for top-leaves.  (presently allocted 1705.46 MB)

Begin Ngb-tree construction.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1751.63 Mbyte (on task=57), Smallest = 1751.58 Mbyte, Average = 1751.63 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  57 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
  57 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
  57 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
  57 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
  57 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
  57 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
  57 2972 0          TopNodes      9.5608    1202.5759  domain_allocate()/domain.c/570
  57 2973 0   DomainNodeIndex      0.6435    1203.2194  force_treeallocate()/forcetree.c/4800
  57 2974 0        Nodes_base    257.9447    1461.1641  force_treeallocate()/forcetree.c/4803
  57 2975 0     Extnodes_base    214.9539    1676.1180  force_treeallocate()/forcetree.c/4811
  57 2976 0          Nextnode     15.0387    1691.1567  force_treeallocate()/forcetree.c/4820
  57 2977 0            Father     14.3032    1705.4599  force_treeallocate()/forcetree.c/4827
  57 2978 0           Ngblist      4.0882    1709.5481  density()/density.c/690
  57 2979 0              Left      8.1764    1717.7245  density()/density.c/692
  57 2980 0             Right      8.1764    1725.9009  density()/density.c/693
  57 2981 0    DataIndexTable      7.0175    1732.9185  density()/density.c/738
  57 2982 0      DataNodeList     18.7134    1751.6319  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_6.492.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_6.859.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1705.46 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=171481
After=193713
NTopleaves= 169499  NTopnodes=193713 (space for 244687)
gravity work-load balance=1.00051   memory-balance=1.00051   SPH work-load balance=0
iter=0 exchange of 0273086647 particles (ret=0)
domain decomposition done. (took 3.7578 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.3334 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1202.62 MB)
Tree construction.

Start linking particles (presently allocated=1754.58 MB)
links on local processor done (took 1.53864 sec).
Marked=0015695840 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1856.14 MB) 
have done 0000357787 cross links (processed 0015695840, took 0.361442 sec)
have done 0000057691 cross links (processed 0001943299, took 0.0792758 sec)
have done 0000014254 cross links (processed 0000555417, took 0.0643609 sec)
have done 0000003614 cross links (processed 0000127681, took 0.058064 sec)
have done 0000000897 cross links (processed 0000027709, took 0.0464568 sec)
have done 0000000237 cross links (processed 0000006235, took 0.0446801 sec)
have done 0000000080 cross links (processed 0000001915, took 0.0442379 sec)
have done 0000000046 cross links (processed 0000000831, took 0.0437729 sec)
have done 0000000038 cross links (processed 0000000604, took 0.0437171 sec)
have done 0000000013 cross links (processed 0000000332, took 0.0437751 sec)
have done 0000000001 cross links (processed 0000000041, took 0.0434 sec)
have done 0000000000 cross links (processed 0000000003, took 0.0433111 sec)
Local groups found.

group finding took = 2.51716 sec
Start finding nearest dm-particle (presently allocated=1754.58 MB)
still finding nearest... (presently allocated=1844 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.109647 sec
compiling local group data and catalogue took = 0.998158 sec

Total number of groups with at least 32 particles: 140926
Largest group has 79942 particles.
Total number of particles in groups: 0018048739

group properties are now allocated.. (presently allocated=1268.52 MB)
computation of group properties took = 0.0181139 sec
start global sorting of group catalogues number 1
LargestGroup = 62.927881; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.048125 sec
Group catalogues globally sorted. took = 0.484533 sec
starting saving of group catalogue number 1
data//groups_001_z006p772
Group catalogues number 1 saved. took = 1.33486 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.677895 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.27372 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.676216 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0184427344 particles. (took 16.45 sec)
ngb iteration 2: need to repeat for 0145274010 particles. (took 9.08109 sec)
ngb iteration 3: need to repeat for 0131011314 particles. (took 6.46935 sec)
ngb iteration 4: need to repeat for 0120744630 particles. (took 5.47388 sec)
ngb iteration 5: need to repeat for 0107786673 particles. (took 4.97427 sec)
ngb iteration 6: need to repeat for 0088652197 particles. (took 4.43562 sec)
ngb iteration 7: need to repeat for 0065019281 particles. (took 3.82298 sec)
ngb iteration 8: need to repeat for 0042721318 particles. (took 2.96955 sec)
ngb iteration 9: need to repeat for 0025801096 particles. (took 2.11057 sec)
ngb iteration 10: need to repeat for 0014725713 particles. (took 1.39216 sec)
ngb iteration 11: need to repeat for 0008106107 particles. (took 0.839631 sec)
ngb iteration 12: need to repeat for 0004357506 particles. (took 0.479117 sec)
ngb iteration 13: need to repeat for 0002304524 particles. (took 0.292734 sec)
ngb iteration 14: need to repeat for 0001098944 particles. (took 0.194572 sec)
ngb iteration 15: need to repeat for 0000360278 particles. (took 0.127232 sec)
ngb iteration 16: need to repeat for 0000126542 particles. (took 0.0764811 sec)
ngb iteration 17: need to repeat for 0000050775 particles. (took 0.0565629 sec)
ngb iteration 18: need to repeat for 0000021371 particles. (took 0.0486188 sec)
ngb iteration 19: need to repeat for 0000008922 particles. (took 0.045234 sec)
ngb iteration 20: need to repeat for 0000003493 particles. (took 0.042897 sec)
ngb iteration 21: need to repeat for 0000001194 particles. (took 0.0412881 sec)
ngb iteration 22: need to repeat for 0000000392 particles. (took 0.04058 sec)
ngb iteration 23: need to repeat for 0000000116 particles. (took 0.040309 sec)
ngb iteration 24: need to repeat for 0000000031 particles. (took 0.0403159 sec)
ngb iteration 25: need to repeat for 0000000006 particles. (took 0.0403471 sec)
ngb iteration 26: need to repeat for 0000000002 particles. (took 0.0405741 sec)
final operations ... 
density and smoothing length for species 1 took 59.9901 sec
Tree construction.
tree build took 0.682177 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.27074 sec
Tree construction.
tree build took 0.674186 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.271017 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.170899 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 2.07586 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.682232 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.174823 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.98215 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.173128 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.97103 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.843725 sec
saving densities took 2.56202 sec

Number of FOF halos treated with collective SubFind code = 0
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 140926 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 14454 - 2891192 

subfind_exchange()() took 0.433381 sec
processing of collective halos took 3.09944e-06 sec
sort of local particles()() took 0.824152 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 7.09434 sec

Task 61: testing particles ...
Task 164: testing particles ...
Task 125: testing particles ...
Task 209: testing particles ...
Task 179: testing particles ...
Task 236: testing particles ...
Task 217: testing particles ...
Task 207: testing particles ...
Task 155: testing particles ...
Task 246: testing particles ...
Task 247: testing particles ...
Task 100: testing particles ...
Task 45: testing particles ...
Task 33: testing particles ...
Task 234: testing particles ...
Task 229: testing particles ...
Task 69: testing particles ...
Task 235: testing particles ...
Task 248: testing particles ...
Task 151: testing particles ...
Task 76: testing particles ...
Task 188: testing particles ...
Task 193: testing particles ...
Task 174: testing particles ...
Task 5: testing particles ...
Task 110: testing particles ...
Task 226: testing particles ...
Task 140: testing particles ...
Task 190: testing particles ...
Task 145: testing particles ...
Task 66: testing particles ...
Task 132: testing particles ...
Task 30: testing particles ...
Task 91: testing particles ...
Task 124: testing particles ...
Task 28: testing particles ...
Task 109: testing particles ...
Task 20: testing particles ...
Task 157: testing particles ...
Task 186: testing particles ...
Task 220: testing particles ...
Task 130: testing particles ...
Task 117: testing particles ...
Task 183: testing particles ...
Task 202: testing particles ...
Task 212: testing particles ...
Task 167: testing particles ...
Task 139: testing particles ...
Task 144: testing particles ...
Task 51: testing particles ...
Task 249: testing particles ...
Task 211: testing particles ...
Task 102: testing particles ...
Task 196: testing particles ...
Task 86: testing particles ...
Task 128: testing particles ...
Task 187: testing particles ...
Task 178: testing particles ...
Task 54: testing particles ...
Task 195: testing particles ...
Task 255: testing particles ...
Task 153: testing particles ...
Task 74: testing particles ...
Task 41: testing particles ...
Task 156: testing particles ...
Task 94: testing particles ...
Task 43: testing particles ...
Task 221: testing particles ...
Task 173: testing particles ...
Task 36: testing particles ...
Task 34: testing particles ...
Task 197: testing particles ...
Task 26: testing particles ...
Task 200: testing particles ...
Task 72: testing particles ...
Task 158: testing particles ...
Task 64: testing particles ...
Task 203: testing particles ...
Task 17: testing particles ...
Task 162: testing particles ...
Task 84: testing particles ...
Task 177: testing particles ...
Task 55: testing particles ...
Task 181: testing particles ...
Task 185: testing particles ...
Task 253: testing particles ...
Task 170: testing particles ...
Task 119: testing particles ...
Task 113: testing particles ...
Task 122: testing particles ...
Task 103: testing particles ...
Task 73: testing particles ...
Task 251: testing particles ...
Task 82: testing particles ...
Task 87: testing particles ...
Task 237: testing particles ...
Task 218: testing particles ...
Task 114: testing particles ...
Task 83: testing particles ...
Task 243: testing particles ...
Task 213: testing particles ...
Task 147: testing particles ...
Task 8: testing particles ...
Task 90: testing particles ...
Task 135: testing particles ...
Task 99: testing particles ...
Task 214: testing particles ...
Task 12: testing particles ...
Task 105: testing particles ...
Task 239: testing particles ...
Task 142: testing particles ...
Task 37: testing particles ...
Task 27: testing particles ...
Task 49: testing particles ...
Task 222: testing particles ...
Task 58: testing particles ...
Task 121: testing particles ...
Task 252: testing particles ...
Task 201: testing particles ...
Task 60: testing particles ...
Task 63: testing particles ...
Task 11: testing particles ...
Task 106: testing particles ...
Task 138: testing particles ...
Task 150: testing particles ...
Task 116: testing particles ...
Task 166: testing particles ...
Task 224: testing particles ...
Task 168: testing particles ...
Task 232: testing particles ...
Task 228: testing particles ...
Task 96: testing particles ...
Task 192: testing particles ...
Task 250: testing particles ...
Task 53: testing particles ...
Task 133: testing particles ...
Task 148: testing particles ...
Task 244: testing particles ...
Task 215: testing particles ...
Task 93: testing particles ...
Task 79: testing particles ...
Task 194: testing particles ...
Task 175: testing particles ...
Task 172: testing particles ...
Task 198: testing particles ...
Task 10: testing particles ...
Task 22: testing particles ...
Task 25: testing particles ...
Task 242: testing particles ...
Task 40: testing particles ...
Task 32: testing particles ...
Task 182: testing particles ...
Task 171: testing particles ...
Task 70: testing particles ...
Task 77: testing particles ...
Task 141: testing particles ...
Task 21: testing particles ...
Task 9: testing particles ...
Task 240: testing particles ...
Task 129: testing particles ...
Task 1: testing particles ...
Task 223: testing particles ...
Task 19: testing particles ...
Task 137: testing particles ...
Task 88: testing particles ...
Task 238: testing particles ...
Task 71: testing particles ...
Task 160: testing particles ...
Task 161: testing particles ...
Task 44: testing particles ...
Task 191: testing particles ...
Task 111: testing particles ...
Task 42: testing particles ...
Task 165: testing particles ...
Task 230: testing particles ...
Task 75: testing particles ...
Task 65: testing particles ...
Task 38: testing particles ...
Task 52: testing particles ...
Task 67: testing particles ...
Task 97: testing particles ...
Task 180: testing particles ...
Task 108: testing particles ...
Task 29: testing particles ...
Task 7: testing particles ...
Task 206: testing particles ...
Task 231: testing particles ...
Task 216: testing particles ...
Task 56: testing particles ...
Task 205: testing particles ...
Task 15: testing particles ...
Task 92: testing particles ...
Task 50: testing particles ...
Task 35: testing particles ...
Task 176: testing particles ...
Task 118: testing particles ...
Task 85: testing particles ...
Task 81: testing particles ...
Task 107: testing particles ...
Task 80: testing particles ...
Task 208: testing particles ...
Task 115: testing particles ...
Task 127: testing particles ...
Task 39: testing particles ...
Task 112: testing particles ...
Task 219: testing particles ...
Task 4: testing particles ...
Task 89: testing particles ...
Task 149: testing particles ...
Task 146: testing particles ...
Task 233: testing particles ...
Task 204: testing particles ...
Task 254: testing particles ...
Task 210: testing particles ...
Task 134: testing particles ...
Task 143: testing particles ...
Task 14: testing particles ...
Task 48: testing particles ...
Task 2: testing particles ...
Task 16: testing particles ...
Task 31: testing particles ...
Task 184: testing particles ...
Task 18: testing particles ...
Task 225: testing particles ...
Task 57: testing particles ...
Task 123: testing particles ...
Task 3: testing particles ...
Task 227: testing particles ...
Task 47: testing particles ...
Task 199: testing particles ...
Task 189: testing particles ...
Task 104: testing particles ...
Task 23: testing particles ...
Task 163: testing particles ...
Task 68: testing particles ...
Task 59: testing particles ...
Task 78: testing particles ...
Task 154: testing particles ...
Task 131: testing particles ...
Task 13: testing particles ...
Task 159: testing particles ...
Task 46: testing particles ...
Task 98: testing particles ...
Task 62: testing particles ...
Task 136: testing particles ...
Task 245: testing particles ...
Task 95: testing particles ...
Task 152: testing particles ...
Task 6: testing particles ...
Task 24: testing particles ...
Task 101: testing particles ...
Task 126: testing particles ...
Task 241: testing particles ...
Task 169: testing particles ...
Task 120: testing particles ...
unsorting of local particles()() took 0.749609 sec
Task 0: testing particles ...
subfind_exchange() (for return to original CPU)  took 0.342938 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1284.24 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1343.79 MB)
Before=175625
After=196737
NTopleaves= 172145  NTopnodes=196737 (space for 244687)
gravity work-load balance=1.00038   memory-balance=1.00038   SPH work-load balance=0
iter=0 exchange of 0273000738 particles (ret=0)
domain decomposition done. (took 4.36176 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.19498 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000132825 particles. (took 0.033931 sec)
SO iteration 2: need to repeat for 0000132825 particles. (took 0.022609 sec)
SO iteration 3: need to repeat for 0000132825 particles. (took 0.0162089 sec)
SO iteration 4: need to repeat for 0000132825 particles. (took 0.0242422 sec)
SO iteration 5: need to repeat for 0000132825 particles. (took 0.016505 sec)
SO iteration 6: need to repeat for 0000132825 particles. (took 0.0245831 sec)
SO iteration 7: need to repeat for 0000132825 particles. (took 0.0237739 sec)
SO iteration 8: need to repeat for 0000132825 particles. (took 0.0187502 sec)
SO iteration 9: need to repeat for 0000132825 particles. (took 0.016454 sec)
SO iteration 10: need to repeat for 0000132825 particles. (took 0.0164199 sec)
SO iteration 11: need to repeat for 0000132825 particles. (took 0.0164139 sec)
SO iteration 12: need to repeat for 0000132825 particles. (took 0.0163431 sec)
SO iteration 13: need to repeat for 0000132825 particles. (took 0.0163939 sec)
SO iteration 14: need to repeat for 0000132825 particles. (took 0.0163891 sec)
SO iteration 15: need to repeat for 0000132800 particles. (took 0.0165141 sec)
SO iteration 16: need to repeat for 0000005151 particles. (took 0.0167229 sec)
SO iteration 17: need to repeat for 0000000021 particles. (took 0.00242496 sec)
SO iteration 1: need to repeat for 0000132825 particles. (took 0.016892 sec)
SO iteration 2: need to repeat for 0000132825 particles. (took 0.015192 sec)
SO iteration 3: need to repeat for 0000132825 particles. (took 0.0151739 sec)
SO iteration 4: need to repeat for 0000132825 particles. (took 0.015135 sec)
SO iteration 5: need to repeat for 0000132825 particles. (took 0.0151069 sec)
SO iteration 6: need to repeat for 0000132825 particles. (took 0.015135 sec)
SO iteration 7: need to repeat for 0000132825 particles. (took 0.0151641 sec)
SO iteration 8: need to repeat for 0000132825 particles. (took 0.0152481 sec)
SO iteration 9: need to repeat for 0000132825 particles. (took 0.0152869 sec)
SO iteration 10: need to repeat for 0000132825 particles. (took 0.0151269 sec)
SO iteration 11: need to repeat for 0000132825 particles. (took 0.0150819 sec)
SO iteration 12: need to repeat for 0000132825 particles. (took 0.015218 sec)
SO iteration 13: need to repeat for 0000132825 particles. (took 0.0151711 sec)
SO iteration 14: need to repeat for 0000132825 particles. (took 0.0152001 sec)
SO iteration 15: need to repeat for 0000132823 particles. (took 0.0151572 sec)
SO iteration 16: need to repeat for 0000111896 particles. (took 0.0153351 sec)
SO iteration 17: need to repeat for 0000004851 particles. (took 0.0137999 sec)
SO iteration 18: need to repeat for 0000000014 particles. (took 0.00216603 sec)
SO iteration 1: need to repeat for 0000132825 particles. (took 0.0167968 sec)
SO iteration 2: need to repeat for 0000132825 particles. (took 0.0151081 sec)
SO iteration 3: need to repeat for 0000132825 particles. (took 0.013571 sec)
SO iteration 4: need to repeat for 0000132825 particles. (took 0.0125961 sec)
SO iteration 5: need to repeat for 0000132825 particles. (took 0.012856 sec)
SO iteration 6: need to repeat for 0000132825 particles. (took 0.0128779 sec)
SO iteration 7: need to repeat for 0000132825 particles. (took 0.012866 sec)
SO iteration 8: need to repeat for 0000132825 particles. (took 0.0131381 sec)
SO iteration 9: need to repeat for 0000132825 particles. (took 0.0128999 sec)
SO iteration 10: need to repeat for 0000132825 particles. (took 0.012877 sec)
SO iteration 11: need to repeat for 0000132825 particles. (took 0.01283 sec)
SO iteration 12: need to repeat for 0000132825 particles. (took 0.013072 sec)
SO iteration 13: need to repeat for 0000132825 particles. (took 0.012985 sec)
SO iteration 14: need to repeat for 0000132825 particles. (took 0.0128942 sec)
SO iteration 15: need to repeat for 0000132825 particles. (took 0.012887 sec)
SO iteration 16: need to repeat for 0000132824 particles. (took 0.0128331 sec)
SO iteration 17: need to repeat for 0000132465 particles. (took 0.01318 sec)
SO iteration 18: need to repeat for 0000044839 particles. (took 0.012856 sec)
SO iteration 19: need to repeat for 0000000436 particles. (took 0.008003 sec)
SO iteration 20: need to repeat for 0000000002 particles. (took 0.000736952 sec)
SO iteration 1: need to repeat for 0000132825 particles. (took 0.016748 sec)
SO iteration 2: need to repeat for 0000132825 particles. (took 0.015687 sec)
SO iteration 3: need to repeat for 0000132825 particles. (took 0.0164149 sec)
SO iteration 4: need to repeat for 0000132825 particles. (took 0.0164859 sec)
SO iteration 5: need to repeat for 0000132825 particles. (took 0.0184388 sec)
SO iteration 6: need to repeat for 0000132825 particles. (took 0.0164659 sec)
SO iteration 7: need to repeat for 0000132825 particles. (took 0.0165188 sec)
SO iteration 8: need to repeat for 0000132825 particles. (took 0.016459 sec)
SO iteration 9: need to repeat for 0000132825 particles. (took 0.016609 sec)
SO iteration 10: need to repeat for 0000132825 particles. (took 0.0165968 sec)
SO iteration 11: need to repeat for 0000132825 particles. (took 0.0163529 sec)
SO iteration 12: need to repeat for 0000132825 particles. (took 0.0164819 sec)
SO iteration 13: need to repeat for 0000132825 particles. (took 0.0163591 sec)
SO iteration 14: need to repeat for 0000132825 particles. (took 0.016515 sec)
SO iteration 15: need to repeat for 0000132793 particles. (took 0.0164831 sec)
SO iteration 16: need to repeat for 0000002614 particles. (took 0.0165012 sec)
SO iteration 17: need to repeat for 0000000009 particles. (took 0.00161409 sec)
SO iteration 1: need to repeat for 0000132825 particles. (took 0.0168481 sec)
SO iteration 2: need to repeat for 0000132825 particles. (took 0.0152991 sec)
SO iteration 3: need to repeat for 0000132825 particles. (took 0.016098 sec)
SO iteration 4: need to repeat for 0000132825 particles. (took 0.0164859 sec)
SO iteration 5: need to repeat for 0000132825 particles. (took 0.0163801 sec)
SO iteration 6: need to repeat for 0000132825 particles. (took 0.016314 sec)
SO iteration 7: need to repeat for 0000132825 particles. (took 0.0163479 sec)
SO iteration 8: need to repeat for 0000132825 particles. (took 0.0165069 sec)
SO iteration 9: need to repeat for 0000132825 particles. (took 0.0162458 sec)
SO iteration 10: need to repeat for 0000132825 particles. (took 0.016475 sec)
SO iteration 11: need to repeat for 0000132825 particles. (took 0.0163281 sec)
SO iteration 12: need to repeat for 0000132825 particles. (took 0.0164449 sec)
SO iteration 13: need to repeat for 0000132825 particles. (took 0.016489 sec)
SO iteration 14: need to repeat for 0000132825 particles. (took 0.0165091 sec)
SO iteration 15: need to repeat for 0000132800 particles. (took 0.0162668 sec)
SO iteration 16: need to repeat for 0000005229 particles. (took 0.0181909 sec)
SO iteration 17: need to repeat for 0000000021 particles. (took 0.00236201 sec)
SO iteration 1: need to repeat for 0000132825 particles. (took 0.0167739 sec)
SO iteration 2: need to repeat for 0000132825 particles. (took 0.015115 sec)
SO iteration 3: need to repeat for 0000132825 particles. (took 0.015033 sec)
SO iteration 4: need to repeat for 0000132825 particles. (took 0.0169508 sec)
SO iteration 5: need to repeat for 0000132825 particles. (took 0.015132 sec)
SO iteration 6: need to repeat for 0000132825 particles. (took 0.015224 sec)
SO iteration 7: need to repeat for 0000132825 particles. (took 0.0151999 sec)
SO iteration 8: need to repeat for 0000132825 particles. (took 0.0150959 sec)
SO iteration 9: need to repeat for 0000132825 particles. (took 0.0151241 sec)
SO iteration 10: need to repeat for 0000132825 particles. (took 0.015161 sec)
SO iteration 11: need to repeat for 0000132825 particles. (took 0.0154769 sec)
SO iteration 12: need to repeat for 0000132825 particles. (took 0.015105 sec)
SO iteration 13: need to repeat for 0000132825 particles. (took 0.015177 sec)
SO iteration 14: need to repeat for 0000132825 particles. (took 0.01512 sec)
SO iteration 15: need to repeat for 0000132823 particles. (took 0.015089 sec)
SO iteration 16: need to repeat for 0000112549 particles. (took 0.015223 sec)
SO iteration 17: need to repeat for 0000004905 particles. (took 0.0137661 sec)
SO iteration 18: need to repeat for 0000000014 particles. (took 0.00217104 sec)
SO iteration 1: need to repeat for 0000132825 particles. (took 0.01687 sec)
SO iteration 2: need to repeat for 0000132825 particles. (took 0.015564 sec)
SO iteration 3: need to repeat for 0000132825 particles. (took 0.0135641 sec)
SO iteration 4: need to repeat for 0000132825 particles. (took 0.012495 sec)
SO iteration 5: need to repeat for 0000132825 particles. (took 0.0129058 sec)
SO iteration 6: need to repeat for 0000132825 particles. (took 0.01285 sec)
SO iteration 7: need to repeat for 0000132825 particles. (took 0.0128899 sec)
SO iteration 8: need to repeat for 0000132825 particles. (took 0.0129139 sec)
SO iteration 9: need to repeat for 0000132825 particles. (took 0.0133431 sec)
SO iteration 10: need to repeat for 0000132825 particles. (took 0.0129809 sec)
SO iteration 11: need to repeat for 0000132825 particles. (took 0.012907 sec)
SO iteration 12: need to repeat for 0000132825 particles. (took 0.0128701 sec)
SO iteration 13: need to repeat for 0000132825 particles. (took 0.0131321 sec)
SO iteration 14: need to repeat for 0000132825 particles. (took 0.012913 sec)
SO iteration 15: need to repeat for 0000132825 particles. (took 0.012954 sec)
SO iteration 16: need to repeat for 0000132824 particles. (took 0.0128839 sec)
SO iteration 17: need to repeat for 0000132488 particles. (took 0.0147681 sec)
SO iteration 18: need to repeat for 0000045352 particles. (took 0.012857 sec)
SO iteration 19: need to repeat for 0000000446 particles. (took 0.00816894 sec)
SO iteration 20: need to repeat for 0000000002 particles. (took 0.000727892 sec)
determining spherical overdensity masses took 1.87568 sec
finding spherical overdensity particles took 0.329352 sec
determining contamination of halos took 0.233357 sec
Global sort of Groups took 0.161793 sec
Global sort of SubGroups took 0.588487 sec
Global sort of IDs took 0.112039 sec
Writing block 0 (GLEN), n=551, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2204d
Writing block 1 (GOFF), n=551, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2204d
Writing block 2 (MTOT), n=551, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2204d
Writing block 3 (GPOS), n=551, ptype=0, dtype=1, ndim=3, bpb=4 bytes=6612d
Writing block 4 (MMEA), n=551, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2204d
Writing block 5 (RMEA), n=551, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2204d
Writing block 6 (MCRI), n=551, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2204d
Writing block 7 (RCRI), n=551, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2204d
Writing block 8 (MTOP), n=551, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2204d
Writing block 9 (RTOP), n=551, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2204d
Writing block 17 (NCON), n=551, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2204d
Writing block 18 (MCON), n=551, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2204d
Writing block 22 (NSUB), n=551, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2204d
Writing block 23 (FSUB), n=551, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2204d
Writing block 24 (SLEN), n=648, ptype=1, dtype=0, ndim=1, bpb=4 bytes=2592d
Writing block 25 (SOFF), n=648, ptype=1, dtype=0, ndim=1, bpb=4 bytes=2592d
Writing block 27 (MSUB), n=648, ptype=1, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 28 (SPOS), n=648, ptype=1, dtype=1, ndim=3, bpb=4 bytes=7776d
Writing block 29 (SVEL), n=648, ptype=1, dtype=1, ndim=3, bpb=4 bytes=7776d
Writing block 30 (SCM ), n=648, ptype=1, dtype=1, ndim=3, bpb=4 bytes=7776d
Writing block 33 (VMAX), n=648, ptype=1, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 34 (RMAX), n=648, ptype=1, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 35 (RHMS), n=648, ptype=1, dtype=1, ndim=6, bpb=4 bytes=15552d
Writing block 36 (MTRH), n=648, ptype=1, dtype=1, ndim=6, bpb=4 bytes=15552d
Writing block 37 (MBID), n=648, ptype=1, dtype=2, ndim=1, bpb=8 bytes=5184d
Writing block 38 (GRNR), n=648, ptype=1, dtype=0, ndim=1, bpb=4 bytes=2592d
Writing block 39 (SUBN), n=648, ptype=1, dtype=0, ndim=1, bpb=4 bytes=2592d
Writing block 40 (SMST), n=648, ptype=1, dtype=1, ndim=6, bpb=4 bytes=15552d
Writing block 53 (PID ), n=80850, ptype=2, dtype=2, ndim=1, bpb=8 bytes=646800d
Writing block 54 (SLEN), n=648, ptype=1, dtype=0, ndim=6, bpb=4 bytes=15552d
Writing block 55 (STEN), n=648, ptype=1, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 56 (SKEN), n=648, ptype=1, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 57 (SUEN), n=648, ptype=1, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 58 (SUIT), n=648, ptype=1, dtype=1, ndim=9, bpb=4 bytes=23328d
Writing block 59 (BHMA), n=648, ptype=1, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 60 (BHMD), n=648, ptype=1, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 61 (SVD ), n=648, ptype=1, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 62 (SVDH), n=648, ptype=1, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 63 (HMPR), n=648, ptype=1, dtype=1, ndim=6, bpb=4 bytes=15552d
Writing block 64 (SSFR), n=648, ptype=1, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 65 (SSA ), n=648, ptype=1, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 66 (SSBZ), n=648, ptype=1, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 67 (SSIM), n=648, ptype=1, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 68 (SSPI), n=648, ptype=4, dtype=1, ndim=3, bpb=4 bytes=7776d
Writing block 69 (GSPI), n=648, ptype=1, dtype=1, ndim=3, bpb=4 bytes=7776d
Writing block 70 (FSPI), n=648, ptype=5, dtype=1, ndim=3, bpb=4 bytes=7776d
Writing block 71 (SFM ), n=648, ptype=5, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 72 (SFMT), n=648, ptype=5, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 73 (SFME), n=648, ptype=5, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 74 (SFAE), n=648, ptype=5, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 75 (SFKE), n=648, ptype=5, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 76 (SFTE), n=648, ptype=5, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 77 (SMWP), n=648, ptype=5, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 78 (SMM ), n=648, ptype=5, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 79 (SMMS), n=648, ptype=5, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 80 (SFZ ), n=648, ptype=5, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 81 (SFZS), n=648, ptype=5, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 82 (SSIA), n=648, ptype=5, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 83 (SIAS), n=648, ptype=5, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 84 (SMET), n=648, ptype=5, dtype=1, ndim=9, bpb=4 bytes=23328d
Writing block 85 (SMTS), n=648, ptype=5, dtype=1, ndim=9, bpb=4 bytes=23328d
Writing block 86 (MF1 ), n=648, ptype=5, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 87 (MeF1), n=648, ptype=5, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 88 (MF  ), n=648, ptype=5, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 89 (MeF2), n=648, ptype=5, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 90 (MFA ), n=648, ptype=5, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 91 (MeFA), n=648, ptype=5, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 92 (NSPI), n=648, ptype=6, dtype=1, ndim=3, bpb=4 bytes=7776d
Writing block 93 (NFM ), n=648, ptype=6, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 94 (NFMT), n=648, ptype=6, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 95 (NFME), n=648, ptype=6, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 96 (NFAE), n=648, ptype=6, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 97 (NFKE), n=648, ptype=6, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 98 (NFTE), n=648, ptype=6, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 99 (SMWP), n=648, ptype=6, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 100 (SMM ), n=648, ptype=6, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 101 (SMMS), n=648, ptype=6, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 102 (SSIA), n=648, ptype=6, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 103 (SIAS), n=648, ptype=6, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 104 (SMET), n=648, ptype=6, dtype=1, ndim=9, bpb=4 bytes=23328d
Writing block 105 (SMTS), n=648, ptype=6, dtype=1, ndim=9, bpb=4 bytes=23328d
Writing block 106 (MF1 ), n=648, ptype=6, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 107 (MeF1), n=648, ptype=6, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 108 (MF2 ), n=648, ptype=6, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 109 (MeF2), n=648, ptype=6, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 110 (MFA ), n=648, ptype=6, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 111 (MeFA), n=648, ptype=6, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 112 (SM  ), n=648, ptype=4, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 113 (SFKE), n=648, ptype=4, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 114 (SFAE), n=648, ptype=4, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 115 (SMWP), n=648, ptype=4, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 116 (SMM ), n=648, ptype=4, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 117 (SMMS), n=648, ptype=4, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 118 (SSIA), n=648, ptype=4, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 119 (SIAS), n=648, ptype=4, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 120 (SMET), n=648, ptype=4, dtype=1, ndim=9, bpb=4 bytes=23328d
Writing block 121 (SMTS), n=648, ptype=4, dtype=1, ndim=9, bpb=4 bytes=23328d
Writing block 122 (MF1 ), n=648, ptype=4, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 123 (MeF1), n=648, ptype=4, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 124 (MF2 ), n=648, ptype=4, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 125 (MeF2), n=648, ptype=4, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 126 (MFA ), n=648, ptype=4, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 127 (MeFA), n=648, ptype=4, dtype=1, ndim=1, bpb=4 bytes=2592d
Writing block 128 (MMe5), n=551, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2204d
Writing block 129 (RMe5), n=551, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2204d
Writing block 130 (MCr5), n=551, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2204d
Writing block 131 (RCr5), n=551, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2204d
Writing block 132 (MMe2), n=551, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2204d
Writing block 133 (RMe2), n=551, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2204d
Writing block 134 (MCr2), n=551, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2204d
Writing block 135 (RCr2), n=551, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2204d
Writing block 136 (MAPT), n=648, ptype=7, dtype=1, ndim=60, bpb=4 bytes=155520d
Writing block 137 (SAPT), n=648, ptype=8, dtype=1, ndim=10, bpb=4 bytes=25920d
Writing block 138 (VAPT), n=648, ptype=9, dtype=1, ndim=10, bpb=4 bytes=25920d
Writing block 139 (BEGY), n=80850, ptype=2, dtype=1, ndim=1, bpb=4 bytes=323400d
Subgroup catalogues saved. took = 2.44839 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 7.482359e-01
 eagle_ph_key_ort: type= 2 timed by volker 4.290795e-02
 eagle_ph_key_ort: type= 3 timed by volker 9.335995e-03
 eagle_ph_key_ort: type= 4 timed by volker 9.335995e-03
 eagle_ph_key_ort: type= 5 timed by volker 9.335995e-03
 eagle_ph_key_ort: timing parallel sort = 8.479412e-01
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 2769540272

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 1308.76 Mbyte (on task=0), Smallest = 1300.13 Mbyte, Average = 1300.86 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.6064    1202.6204  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.4570    1227.0774  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.7616    1267.8390  fof_fof()/fof.c/337
   0 2975 0             Group      0.6807    1268.5197  fof_fof()/fof.c/380
   0 2976 0          SubGroup     15.7164    1284.2361  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5245    1308.7606  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 2767701 number of bytes = 885664320

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3356.7 Mbyte (on task=0), Smallest = 3347.55 Mbyte, Average = 3348.74 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.6064    1202.6204  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.4570    1227.0774  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.7616    1267.8390  fof_fof()/fof.c/337
   0 2975 0             Group      0.6807    1268.5197  fof_fof()/fof.c/380
   0 2976 0          SubGroup     15.7164    1284.2361  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5245    1308.7606  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx     10.5579    1319.3185  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv     10.5579    1329.8765  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send     10.5579    1340.4344  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    844.6353    2185.0697  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    844.6353    3029.7050  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    326.9934    3356.6984  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.494727e+00
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 2769540272
 eagle_fetch_elements: max_bytes= 504, max_elements= 2105376 number of bytes = 1061109504
 eagle_ph_key_ort: timing parallel SphP exchange = 5.511999e-03
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 2769540272
 eagle_fetch_elements: max_bytes= 384, max_elements= 2753184 number of bytes = 1057222656
 eagle_ph_key_ort: timing parallel MetP exchange = 5.230904e-04
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 2769540272
 eagle_fetch_elements: max_bytes= 256, max_elements= 4098251 number of bytes = 1049152256
 eagle_ph_key_ort: timing parallel BHP exchange = 5.211830e-04
Sorting particle-data by peano-hilbert key took = 3.72745 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 2767701 number of bytes= 885664320
 eagle_ph_restore: timing parallel P exchange = 2.425045e+00
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 2105376 number of bytes= 1061109504
 eagle_ph_restore: timing parallel SphP exchange = 5.129099e-03
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2753184 number of bytes= 1057222656
 eagle_ph_restore: timing parallel MetP exchange = 7.269382e-04
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 4098251 number of bytes= 1049152256
 eagle_ph_restore: timing parallel BHP exchange = 8.280277e-04
Restoring original order after ph key sorting took = 2.44886 sec

finished writing particle file...

Finished with SUBFIND.  (total time=108.495 sec)

Finished computing FoF groups.  (presently allocated=1202.62 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=170689
After=193785
NTopleaves= 169562  NTopnodes=193785 (space for 244687)
gravity work-load balance=1.0005   memory-balance=1.0005   SPH work-load balance=0
iter=0 exchange of 0273359506 particles (ret=0)
domain decomposition done. (took 3.73267 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.33011 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 16: endrun called with an error level of 124


task 16: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
task 128: endrun called with an error level of 124


task 128: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 160: endrun called with an error level of 124


task 160: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
task 176: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
task 176: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 192: endrun called with an error level of 124


task 192: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
Finished FOF, total time doing fof/subfind = 124.359 s
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
task 0: endrun called with an error level of 124


  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.69 Mb (on task=112), Smallest =   62648.17 Mb (on task=0), Average =   62686.81 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1883.89 Mb (on task=0), Smallest =    1798.37 Mb (on task=112), Average =    1845.27 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16337.24 Mb (on task=112), Average =   16351.02 Mb
AllocMem:	 Largest =    1883.89 Mb (on task=0), Smallest =    1798.37 Mb (on task=112), Average =    1845.27 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_002_z004p614/snap_002_z004p614.0.hdf5' on task=0 (contains 17339144 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  17070839  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     10752  (tot=     0000303834) masstab=0
Type 3 (bulge):   257553  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.180556

Setting next time for line of sight file to Time_next= 0.17882

Setting next time for snipshot file to Time_next= 0.189431

Setting next time for fof output to Time_next= 0.189431
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=3.81399 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
Before=175041
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=175041
After=193425
NTopleaves= 169247  NTopnodes=193425 (space for 244687)
gravity work-load balance=1.00043   memory-balance=1.00043   SPH work-load balance=0
iter=0 exchange of 0273185136 particles (ret=0)
domain decomposition done. (took 9.50958 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.34659 MByte in top-level domain structure

Allocated 502.349 MByte for BH-tree, and 0.645626 Mbyte for top-leaves.  (presently allocted 1705.6 MB)

Begin Ngb-tree construction.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1751.78 Mbyte (on task=201), Smallest = 1751.67 Mbyte, Average = 1751.77 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 201 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
 201 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
 201 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
 201 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
 201 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
 201 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
 201 2972 0          TopNodes      9.5922    1202.6072  domain_allocate()/domain.c/570
 201 2973 0   DomainNodeIndex      0.6456    1203.2528  force_treeallocate()/forcetree.c/4800
 201 2974 0        Nodes_base    258.0026    1461.2554  force_treeallocate()/forcetree.c/4803
 201 2975 0     Extnodes_base    215.0021    1676.2575  force_treeallocate()/forcetree.c/4811
 201 2976 0          Nextnode     15.0411    1691.2986  force_treeallocate()/forcetree.c/4820
 201 2977 0            Father     14.3032    1705.6018  force_treeallocate()/forcetree.c/4827
 201 2978 0           Ngblist      4.0884    1709.6902  density()/density.c/690
 201 2979 0              Left      8.1768    1717.8670  density()/density.c/692
 201 2980 0             Right      8.1768    1726.0437  density()/density.c/693
 201 2981 0    DataIndexTable      7.0175    1733.0612  density()/density.c/738
 201 2982 0      DataNodeList     18.7134    1751.7747  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_4.356.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_4.619.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1705.6 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=172945
After=196433
NTopleaves= 171879  NTopnodes=196433 (space for 244687)
gravity work-load balance=1.00049   memory-balance=1.00049   SPH work-load balance=0
iter=0 exchange of 0273331792 particles (ret=0)
domain decomposition done. (took 3.65612 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.20889 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1202.76 MB)
Tree construction.

Start linking particles (presently allocated=1755.34 MB)
links on local processor done (took 1.98433 sec).
Marked=0018101841 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1856.95 MB) 
have done 0000551711 cross links (processed 0018101841, took 0.429011 sec)
have done 0000129064 cross links (processed 0004926679, took 0.184872 sec)
have done 0000047219 cross links (processed 0002263616, took 0.164159 sec)
have done 0000016041 cross links (processed 0000688475, took 0.104863 sec)
have done 0000005725 cross links (processed 0000247238, took 0.102894 sec)
have done 0000002018 cross links (processed 0000072460, took 0.064286 sec)
have done 0000000737 cross links (processed 0000025197, took 0.0604739 sec)
have done 0000000343 cross links (processed 0000011510, took 0.047509 sec)
have done 0000000112 cross links (processed 0000002386, took 0.0449672 sec)
have done 0000000036 cross links (processed 0000000990, took 0.044713 sec)
have done 0000000010 cross links (processed 0000000133, took 0.0437679 sec)
have done 0000000005 cross links (processed 0000000033, took 0.043673 sec)
have done 0000000000 cross links (processed 0000000011, took 0.0435081 sec)
Local groups found.

group finding took = 3.42758 sec
Start finding nearest dm-particle (presently allocated=1755.34 MB)
still finding nearest... (presently allocated=1844.8 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.109663 sec
compiling local group data and catalogue took = 0.912159 sec

Total number of groups with at least 32 particles: 218658
Largest group has 286863 particles.
Total number of particles in groups: 0041410015

group properties are now allocated.. (presently allocated=1269.21 MB)
computation of group properties took = 0.0296469 sec
start global sorting of group catalogues number 2
LargestGroup = 225.809720; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0512311 sec
Group catalogues globally sorted. took = 0.545305 sec
starting saving of group catalogue number 2
data//groups_002_z004p614
Group catalogues number 2 saved. took = 1.05609 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.693344 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.271216 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.685583 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0178890894 particles. (took 18.1125 sec)
ngb iteration 2: need to repeat for 0142287499 particles. (took 8.86702 sec)
ngb iteration 3: need to repeat for 0125646149 particles. (took 6.60251 sec)
ngb iteration 4: need to repeat for 0114912539 particles. (took 5.39838 sec)
ngb iteration 5: need to repeat for 0102982854 particles. (took 4.73051 sec)
ngb iteration 6: need to repeat for 0086236818 particles. (took 4.20313 sec)
ngb iteration 7: need to repeat for 0065413642 particles. (took 3.64513 sec)
ngb iteration 8: need to repeat for 0044919491 particles. (took 2.93985 sec)
ngb iteration 9: need to repeat for 0028455248 particles. (took 2.18046 sec)
ngb iteration 10: need to repeat for 0017009615 particles. (took 1.503 sec)
ngb iteration 11: need to repeat for 0009765830 particles. (took 0.94911 sec)
ngb iteration 12: need to repeat for 0005449512 particles. (took 0.578652 sec)
ngb iteration 13: need to repeat for 0002973802 particles. (took 0.33981 sec)
ngb iteration 14: need to repeat for 0001509468 particles. (took 0.220243 sec)
ngb iteration 15: need to repeat for 0000622693 particles. (took 0.144474 sec)
ngb iteration 16: need to repeat for 0000252641 particles. (took 0.0891149 sec)
ngb iteration 17: need to repeat for 0000106292 particles. (took 0.0641901 sec)
ngb iteration 18: need to repeat for 0000045673 particles. (took 0.0537698 sec)
ngb iteration 19: need to repeat for 0000019087 particles. (took 0.0478151 sec)
ngb iteration 20: need to repeat for 0000007726 particles. (took 0.0444131 sec)
ngb iteration 21: need to repeat for 0000002907 particles. (took 0.0423601 sec)
ngb iteration 22: need to repeat for 0000000958 particles. (took 0.0411651 sec)
ngb iteration 23: need to repeat for 0000000280 particles. (took 0.0403268 sec)
ngb iteration 24: need to repeat for 0000000075 particles. (took 0.0403879 sec)
ngb iteration 25: need to repeat for 0000000020 particles. (took 0.0403259 sec)
ngb iteration 26: need to repeat for 0000000007 particles. (took 0.040252 sec)
ngb iteration 27: need to repeat for 0000000002 particles. (took 0.040221 sec)
ngb iteration 28: need to repeat for 0000000002 particles. (took 0.040118 sec)
final operations ... 
density and smoothing length for species 1 took 61.4008 sec
Tree construction.
tree build took 0.697351 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.269916 sec
Tree construction.
tree build took 0.688318 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.268624 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.170611 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.9183 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.690469 sec
density() of species 1 took 1.19209e-06 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.170368 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.96132 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.172125 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.91468 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.837963 sec
saving densities took 3.08477 sec

Number of FOF halos treated with collective SubFind code = 0
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 218658 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 24189 - 10583063 

subfind_exchange()() took 0.645776 sec
processing of collective halos took 2.86102e-06 sec
sort of local particles()() took 0.903595 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 25.9493 sec

Task 164: testing particles ...
Task 222: testing particles ...
Task 244: testing particles ...
Task 151: testing particles ...
Task 206: testing particles ...
Task 231: testing particles ...
Task 191: testing particles ...
Task 219: testing particles ...
Task 68: testing particles ...
Task 112: testing particles ...
Task 248: testing particles ...
Task 194: testing particles ...
Task 227: testing particles ...
Task 136: testing particles ...
Task 181: testing particles ...
Task 129: testing particles ...
Task 170: testing particles ...
Task 89: testing particles ...
Task 184: testing particles ...
Task 238: testing particles ...
Task 163: testing particles ...
Task 114: testing particles ...
Task 190: testing particles ...
Task 224: testing particles ...
Task 202: testing particles ...
Task 107: testing particles ...
Task 146: testing particles ...
Task 249: testing particles ...
Task 215: testing particles ...
Task 177: testing particles ...
Task 124: testing particles ...
Task 208: testing particles ...
Task 153: testing particles ...
Task 100: testing particles ...
Task 21: testing particles ...
Task 74: testing particles ...
Task 185: testing particles ...
Task 140: testing particles ...
Task 101: testing particles ...
Task 239: testing particles ...
Task 251: testing particles ...
Task 199: testing particles ...
Task 81: testing particles ...
Task 197: testing particles ...
Task 253: testing particles ...
Task 46: testing particles ...
Task 213: testing particles ...
Task 152: testing particles ...
Task 149: testing particles ...
Task 52: testing particles ...
Task 195: testing particles ...
Task 240: testing particles ...
Task 93: testing particles ...
Task 236: testing particles ...
Task 218: testing particles ...
Task 214: testing particles ...
Task 49: testing particles ...
Task 75: testing particles ...
Task 171: testing particles ...
Task 246: testing particles ...
Task 42: testing particles ...
Task 55: testing particles ...
Task 127: testing particles ...
Task 30: testing particles ...
Task 212: testing particles ...
Task 189: testing particles ...
Task 237: testing particles ...
Task 97: testing particles ...
Task 126: testing particles ...
Task 31: testing particles ...
Task 156: testing particles ...
Task 92: testing particles ...
Task 35: testing particles ...
Task 209: testing particles ...
Task 158: testing particles ...
Task 80: testing particles ...
Task 159: testing particles ...
Task 178: testing particles ...
Task 139: testing particles ...
Task 204: testing particles ...
Task 79: testing particles ...
Task 128: testing particles ...
Task 64: testing particles ...
Task 51: testing particles ...
Task 130: testing particles ...
Task 98: testing particles ...
Task 173: testing particles ...
Task 96: testing particles ...
Task 125: testing particles ...
Task 233: testing particles ...
Task 40: testing particles ...
Task 221: testing particles ...
Task 179: testing particles ...
Task 108: testing particles ...
Task 235: testing particles ...
Task 113: testing particles ...
Task 155: testing particles ...
Task 250: testing particles ...
Task 254: testing particles ...
Task 13: testing particles ...
Task 90: testing particles ...
Task 172: testing particles ...
Task 243: testing particles ...
Task 25: testing particles ...
Task 137: testing particles ...
Task 211: testing particles ...
Task 234: testing particles ...
Task 105: testing particles ...
Task 223: testing particles ...
Task 176: testing particles ...
Task 226: testing particles ...
Task 67: testing particles ...
Task 160: testing particles ...
Task 76: testing particles ...
Task 228: testing particles ...
Task 230: testing particles ...
Task 29: testing particles ...
Task 116: testing particles ...
Task 34: testing particles ...
Task 143: testing particles ...
Task 58: testing particles ...
Task 53: testing particles ...
Task 157: testing particles ...
Task 169: testing particles ...
Task 69: testing particles ...
Task 120: testing particles ...
Task 174: testing particles ...
Task 87: testing particles ...
Task 150: testing particles ...
Task 241: testing particles ...
Task 242: testing particles ...
Task 188: testing particles ...
Task 71: testing particles ...
Task 63: testing particles ...
Task 11: testing particles ...
Task 192: testing particles ...
Task 28: testing particles ...
Task 83: testing particles ...
Task 135: testing particles ...
Task 205: testing particles ...
Task 36: testing particles ...
Task 18: testing particles ...
Task 123: testing particles ...
Task 142: testing particles ...
Task 6: testing particles ...
Task 66: testing particles ...
Task 95: testing particles ...
Task 175: testing particles ...
Task 252: testing particles ...
Task 144: testing particles ...
Task 43: testing particles ...
Task 57: testing particles ...
Task 117: testing particles ...
Task 132: testing particles ...
Task 220: testing particles ...
Task 232: testing particles ...
Task 103: testing particles ...
Task 72: testing particles ...
Task 82: testing particles ...
Task 47: testing particles ...
Task 59: testing particles ...
Task 118: testing particles ...
Task 109: testing particles ...
Task 70: testing particles ...
Task 201: testing particles ...
Task 39: testing particles ...
Task 154: testing particles ...
Task 196: testing particles ...
Task 7: testing particles ...
Task 166: testing particles ...
Task 198: testing particles ...
Task 62: testing particles ...
Task 121: testing particles ...
Task 23: testing particles ...
Task 141: testing particles ...
Task 180: testing particles ...
Task 104: testing particles ...
Task 168: testing particles ...
Task 193: testing particles ...
Task 99: testing particles ...
Task 106: testing particles ...
Task 61: testing particles ...
Task 247: testing particles ...
Task 217: testing particles ...
Task 54: testing particles ...
Task 165: testing particles ...
Task 37: testing particles ...
Task 245: testing particles ...
Task 14: testing particles ...
Task 115: testing particles ...
Task 131: testing particles ...
Task 33: testing particles ...
Task 161: testing particles ...
Task 94: testing particles ...
Task 207: testing particles ...
Task 5: testing particles ...
Task 8: testing particles ...
Task 111: testing particles ...
Task 162: testing particles ...
Task 134: testing particles ...
Task 60: testing particles ...
Task 56: testing particles ...
Task 65: testing particles ...
Task 78: testing particles ...
Task 45: testing particles ...
Task 203: testing particles ...
Task 255: testing particles ...
Task 22: testing particles ...
Task 19: testing particles ...
Task 102: testing particles ...
Task 12: testing particles ...
Task 38: testing particles ...
Task 110: testing particles ...
Task 86: testing particles ...
Task 182: testing particles ...
Task 122: testing particles ...
Task 229: testing particles ...
Task 119: testing particles ...
Task 15: testing particles ...
Task 187: testing particles ...
Task 145: testing particles ...
Task 91: testing particles ...
Task 9: testing particles ...
Task 88: testing particles ...
Task 167: testing particles ...
Task 133: testing particles ...
Task 147: testing particles ...
Task 32: testing particles ...
Task 200: testing particles ...
Task 27: testing particles ...
Task 50: testing particles ...
Task 186: testing particles ...
Task 85: testing particles ...
Task 216: testing particles ...
Task 84: testing particles ...
Task 77: testing particles ...
Task 73: testing particles ...
Task 148: testing particles ...
Task 210: testing particles ...
Task 41: testing particles ...
Task 225: testing particles ...
Task 26: testing particles ...
Task 17: testing particles ...
Task 183: testing particles ...
Task 24: testing particles ...
Task 16: testing particles ...
Task 48: testing particles ...
Task 10: testing particles ...
Task 20: testing particles ...
Task 44: testing particles ...
Task 138: testing particles ...
Task 1: testing particles ...
Task 4: testing particles ...
Task 2: testing particles ...
Task 3: testing particles ...
unsorting of local particles()() took 0.844632 sec
Task 0: testing particles ...
subfind_exchange() (for return to original CPU)  took 0.569094 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1315.74 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1375.29 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1375.29 Mbyte (on task=0), Smallest = 1344 Mbyte, Average = 1346.34 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.7413    1202.7553  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5311    1227.2864  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8852    1268.1716  fof_fof()/fof.c/337
   0 2975 0             Group      1.0407    1269.2124  fof_fof()/fof.c/380
   0 2976 0          SubGroup     46.5230    1315.7353  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    1327.9946  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    1356.6011  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    1357.5462  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    1358.4796  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    1359.4130  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    1360.3464  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    1361.2837  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    1362.2210  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    1375.2887  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=177281
After=199993
NTopleaves= 174994  NTopnodes=199993 (space for 244687)
gravity work-load balance=1.00036   memory-balance=1.00036   SPH work-load balance=0
iter=0 exchange of 0273001844 particles (ret=0)
domain decomposition done. (took 3.83398 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.04593 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000201817 particles. (took 0.031925 sec)
SO iteration 2: need to repeat for 0000201817 particles. (took 0.0211551 sec)
SO iteration 3: need to repeat for 0000201817 particles. (took 0.024682 sec)
SO iteration 4: need to repeat for 0000201817 particles. (took 0.0231421 sec)
SO iteration 5: need to repeat for 0000201817 particles. (took 0.0230329 sec)
SO iteration 6: need to repeat for 0000201817 particles. (took 0.0231252 sec)
SO iteration 7: need to repeat for 0000201817 particles. (took 0.0235732 sec)
SO iteration 8: need to repeat for 0000201817 particles. (took 0.023226 sec)
SO iteration 9: need to repeat for 0000201817 particles. (took 0.0230901 sec)
SO iteration 10: need to repeat for 0000201817 particles. (took 0.0230601 sec)
SO iteration 11: need to repeat for 0000201817 particles. (took 0.023016 sec)
SO iteration 12: need to repeat for 0000201817 particles. (took 0.022954 sec)
SO iteration 13: need to repeat for 0000201817 particles. (took 0.0229619 sec)
SO iteration 14: need to repeat for 0000201817 particles. (took 0.0233331 sec)
SO iteration 15: need to repeat for 0000201716 particles. (took 0.023258 sec)
SO iteration 16: need to repeat for 0000005727 particles. (took 0.0247891 sec)
SO iteration 17: need to repeat for 0000000036 particles. (took 0.00265598 sec)
SO iteration 1: need to repeat for 0000201817 particles. (took 0.0237482 sec)
SO iteration 2: need to repeat for 0000201817 particles. (took 0.020818 sec)
SO iteration 3: need to repeat for 0000201817 particles. (took 0.021493 sec)
SO iteration 4: need to repeat for 0000201817 particles. (took 0.0208859 sec)
SO iteration 5: need to repeat for 0000201817 particles. (took 0.0209091 sec)
SO iteration 6: need to repeat for 0000201817 particles. (took 0.0208859 sec)
SO iteration 7: need to repeat for 0000201817 particles. (took 0.0210221 sec)
SO iteration 8: need to repeat for 0000201817 particles. (took 0.020972 sec)
SO iteration 9: need to repeat for 0000201817 particles. (took 0.0209441 sec)
SO iteration 10: need to repeat for 0000201817 particles. (took 0.021436 sec)
SO iteration 11: need to repeat for 0000201817 particles. (took 0.0213559 sec)
SO iteration 12: need to repeat for 0000201817 particles. (took 0.0209701 sec)
SO iteration 13: need to repeat for 0000201817 particles. (took 0.0209839 sec)
SO iteration 14: need to repeat for 0000201817 particles. (took 0.020997 sec)
SO iteration 15: need to repeat for 0000201802 particles. (took 0.021055 sec)
SO iteration 16: need to repeat for 0000163414 particles. (took 0.021055 sec)
SO iteration 17: need to repeat for 0000005062 particles. (took 0.0177319 sec)
SO iteration 18: need to repeat for 0000000032 particles. (took 0.00223303 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000559092 sec)
SO iteration 1: need to repeat for 0000201817 particles. (took 0.0239179 sec)
SO iteration 2: need to repeat for 0000201817 particles. (took 0.0210979 sec)
SO iteration 3: need to repeat for 0000201817 particles. (took 0.0179319 sec)
SO iteration 4: need to repeat for 0000201817 particles. (took 0.016459 sec)
SO iteration 5: need to repeat for 0000201817 particles. (took 0.0171561 sec)
SO iteration 6: need to repeat for 0000201817 particles. (took 0.0169041 sec)
SO iteration 7: need to repeat for 0000201817 particles. (took 0.0172362 sec)
SO iteration 8: need to repeat for 0000201817 particles. (took 0.017004 sec)
SO iteration 9: need to repeat for 0000201817 particles. (took 0.0171289 sec)
SO iteration 10: need to repeat for 0000201817 particles. (took 0.0170598 sec)
SO iteration 11: need to repeat for 0000201817 particles. (took 0.017175 sec)
SO iteration 12: need to repeat for 0000201817 particles. (took 0.0170412 sec)
SO iteration 13: need to repeat for 0000201817 particles. (took 0.016959 sec)
SO iteration 14: need to repeat for 0000201817 particles. (took 0.016993 sec)
SO iteration 15: need to repeat for 0000201817 particles. (took 0.0168819 sec)
SO iteration 16: need to repeat for 0000201815 particles. (took 0.017014 sec)
SO iteration 17: need to repeat for 0000200792 particles. (took 0.0169721 sec)
SO iteration 18: need to repeat for 0000054069 particles. (took 0.0170369 sec)
SO iteration 19: need to repeat for 0000000477 particles. (took 0.00897789 sec)
SO iteration 20: need to repeat for 0000000009 particles. (took 0.000766993 sec)
SO iteration 1: need to repeat for 0000201817 particles. (took 0.0238791 sec)
SO iteration 2: need to repeat for 0000201817 particles. (took 0.0217459 sec)
SO iteration 3: need to repeat for 0000201817 particles. (took 0.022804 sec)
SO iteration 4: need to repeat for 0000201817 particles. (took 0.0231831 sec)
SO iteration 5: need to repeat for 0000201817 particles. (took 0.0233841 sec)
SO iteration 6: need to repeat for 0000201817 particles. (took 0.023138 sec)
SO iteration 7: need to repeat for 0000201817 particles. (took 0.023334 sec)
SO iteration 8: need to repeat for 0000201817 particles. (took 0.0232849 sec)
SO iteration 9: need to repeat for 0000201817 particles. (took 0.0230472 sec)
SO iteration 10: need to repeat for 0000201817 particles. (took 0.023174 sec)
SO iteration 11: need to repeat for 0000201817 particles. (took 0.0234051 sec)
SO iteration 12: need to repeat for 0000201817 particles. (took 0.023082 sec)
SO iteration 13: need to repeat for 0000201817 particles. (took 0.0232751 sec)
SO iteration 14: need to repeat for 0000201817 particles. (took 0.0232389 sec)
SO iteration 15: need to repeat for 0000201697 particles. (took 0.0232439 sec)
SO iteration 16: need to repeat for 0000002988 particles. (took 0.023103 sec)
SO iteration 17: need to repeat for 0000000018 particles. (took 0.00174499 sec)
SO iteration 1: need to repeat for 0000201817 particles. (took 0.0236461 sec)
SO iteration 2: need to repeat for 0000201817 particles. (took 0.020993 sec)
SO iteration 3: need to repeat for 0000201817 particles. (took 0.0226631 sec)
SO iteration 4: need to repeat for 0000201817 particles. (took 0.0231249 sec)
SO iteration 5: need to repeat for 0000201817 particles. (took 0.023246 sec)
SO iteration 6: need to repeat for 0000201817 particles. (took 0.023092 sec)
SO iteration 7: need to repeat for 0000201817 particles. (took 0.0228589 sec)
SO iteration 8: need to repeat for 0000201817 particles. (took 0.022975 sec)
SO iteration 9: need to repeat for 0000201817 particles. (took 0.0230191 sec)
SO iteration 10: need to repeat for 0000201817 particles. (took 0.0230658 sec)
SO iteration 11: need to repeat for 0000201817 particles. (took 0.022943 sec)
SO iteration 12: need to repeat for 0000201817 particles. (took 0.0229459 sec)
SO iteration 13: need to repeat for 0000201817 particles. (took 0.022974 sec)
SO iteration 14: need to repeat for 0000201817 particles. (took 0.0230119 sec)
SO iteration 15: need to repeat for 0000201719 particles. (took 0.0230482 sec)
SO iteration 16: need to repeat for 0000006126 particles. (took 0.0227761 sec)
SO iteration 17: need to repeat for 0000000038 particles. (took 0.0028019 sec)
SO iteration 1: need to repeat for 0000201817 particles. (took 0.023829 sec)
SO iteration 2: need to repeat for 0000201817 particles. (took 0.0214322 sec)
SO iteration 3: need to repeat for 0000201817 particles. (took 0.021498 sec)
SO iteration 4: need to repeat for 0000201817 particles. (took 0.020956 sec)
SO iteration 5: need to repeat for 0000201817 particles. (took 0.0211101 sec)
SO iteration 6: need to repeat for 0000201817 particles. (took 0.021873 sec)
SO iteration 7: need to repeat for 0000201817 particles. (took 0.0218501 sec)
SO iteration 8: need to repeat for 0000201817 particles. (took 0.021584 sec)
SO iteration 9: need to repeat for 0000201817 particles. (took 0.0221679 sec)
SO iteration 10: need to repeat for 0000201817 particles. (took 0.02123 sec)
SO iteration 11: need to repeat for 0000201817 particles. (took 0.0210829 sec)
SO iteration 12: need to repeat for 0000201817 particles. (took 0.0213258 sec)
SO iteration 13: need to repeat for 0000201817 particles. (took 0.021071 sec)
SO iteration 14: need to repeat for 0000201817 particles. (took 0.021054 sec)
SO iteration 15: need to repeat for 0000201802 particles. (took 0.021244 sec)
SO iteration 16: need to repeat for 0000167200 particles. (took 0.02086 sec)
SO iteration 17: need to repeat for 0000005289 particles. (took 0.0184951 sec)
SO iteration 18: need to repeat for 0000000034 particles. (took 0.0023632 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000831127 sec)
SO iteration 1: need to repeat for 0000201817 particles. (took 0.0239239 sec)
SO iteration 2: need to repeat for 0000201817 particles. (took 0.020999 sec)
SO iteration 3: need to repeat for 0000201817 particles. (took 0.019598 sec)
SO iteration 4: need to repeat for 0000201817 particles. (took 0.0164149 sec)
SO iteration 5: need to repeat for 0000201817 particles. (took 0.0176749 sec)
SO iteration 6: need to repeat for 0000201817 particles. (took 0.0174968 sec)
SO iteration 7: need to repeat for 0000201817 particles. (took 0.0174041 sec)
SO iteration 8: need to repeat for 0000201817 particles. (took 0.0172329 sec)
SO iteration 9: need to repeat for 0000201817 particles. (took 0.0172451 sec)
SO iteration 10: need to repeat for 0000201817 particles. (took 0.017139 sec)
SO iteration 11: need to repeat for 0000201817 particles. (took 0.0170581 sec)
SO iteration 12: need to repeat for 0000201817 particles. (took 0.0167592 sec)
SO iteration 13: need to repeat for 0000201817 particles. (took 0.0168641 sec)
SO iteration 14: need to repeat for 0000201817 particles. (took 0.0169151 sec)
SO iteration 15: need to repeat for 0000201817 particles. (took 0.0170789 sec)
SO iteration 16: need to repeat for 0000201815 particles. (took 0.016932 sec)
SO iteration 17: need to repeat for 0000200956 particles. (took 0.0168719 sec)
SO iteration 18: need to repeat for 0000055811 particles. (took 0.0168099 sec)
SO iteration 19: need to repeat for 0000000504 particles. (took 0.00884199 sec)
SO iteration 20: need to repeat for 0000000010 particles. (took 0.000742912 sec)
determining spherical overdensity masses took 2.51643 sec
finding spherical overdensity particles took 0.659198 sec
determining contamination of halos took 0.206497 sec
Global sort of Groups took 0.164992 sec
Global sort of SubGroups took 0.563616 sec
Global sort of IDs took 0.180749 sec
Writing block 0 (GLEN), n=855, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3420d
Writing block 1 (GOFF), n=855, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3420d
Writing block 2 (MTOT), n=855, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3420d
Writing block 3 (GPOS), n=855, ptype=0, dtype=1, ndim=3, bpb=4 bytes=10260d
Writing block 4 (MMEA), n=855, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3420d
Writing block 5 (RMEA), n=855, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3420d
Writing block 6 (MCRI), n=855, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3420d
Writing block 7 (RCRI), n=855, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3420d
Writing block 8 (MTOP), n=855, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3420d
Writing block 9 (RTOP), n=855, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3420d
Writing block 17 (NCON), n=855, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3420d
Writing block 18 (MCON), n=855, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3420d
Writing block 22 (NSUB), n=855, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3420d
Writing block 23 (FSUB), n=855, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3420d
Writing block 24 (SLEN), n=999, ptype=1, dtype=0, ndim=1, bpb=4 bytes=3996d
Writing block 25 (SOFF), n=999, ptype=1, dtype=0, ndim=1, bpb=4 bytes=3996d
Writing block 27 (MSUB), n=999, ptype=1, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 28 (SPOS), n=999, ptype=1, dtype=1, ndim=3, bpb=4 bytes=11988d
Writing block 29 (SVEL), n=999, ptype=1, dtype=1, ndim=3, bpb=4 bytes=11988d
Writing block 30 (SCM ), n=999, ptype=1, dtype=1, ndim=3, bpb=4 bytes=11988d
Writing block 33 (VMAX), n=999, ptype=1, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 34 (RMAX), n=999, ptype=1, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 35 (RHMS), n=999, ptype=1, dtype=1, ndim=6, bpb=4 bytes=23976d
Writing block 36 (MTRH), n=999, ptype=1, dtype=1, ndim=6, bpb=4 bytes=23976d
Writing block 37 (MBID), n=999, ptype=1, dtype=2, ndim=1, bpb=8 bytes=7992d
Writing block 38 (GRNR), n=999, ptype=1, dtype=0, ndim=1, bpb=4 bytes=3996d
Writing block 39 (SUBN), n=999, ptype=1, dtype=0, ndim=1, bpb=4 bytes=3996d
Writing block 40 (SMST), n=999, ptype=1, dtype=1, ndim=6, bpb=4 bytes=23976d
Writing block 53 (PID ), n=148708, ptype=2, dtype=2, ndim=1, bpb=8 bytes=1189664d
Writing block 54 (SLEN), n=999, ptype=1, dtype=0, ndim=6, bpb=4 bytes=23976d
Writing block 55 (STEN), n=999, ptype=1, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 56 (SKEN), n=999, ptype=1, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 57 (SUEN), n=999, ptype=1, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 58 (SUIT), n=999, ptype=1, dtype=1, ndim=9, bpb=4 bytes=35964d
Writing block 59 (BHMA), n=999, ptype=1, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 60 (BHMD), n=999, ptype=1, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 61 (SVD ), n=999, ptype=1, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 62 (SVDH), n=999, ptype=1, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 63 (HMPR), n=999, ptype=1, dtype=1, ndim=6, bpb=4 bytes=23976d
Writing block 64 (SSFR), n=999, ptype=1, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 65 (SSA ), n=999, ptype=1, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 66 (SSBZ), n=999, ptype=1, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 67 (SSIM), n=999, ptype=1, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 68 (SSPI), n=999, ptype=4, dtype=1, ndim=3, bpb=4 bytes=11988d
Writing block 69 (GSPI), n=999, ptype=1, dtype=1, ndim=3, bpb=4 bytes=11988d
Writing block 70 (FSPI), n=999, ptype=5, dtype=1, ndim=3, bpb=4 bytes=11988d
Writing block 71 (SFM ), n=999, ptype=5, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 72 (SFMT), n=999, ptype=5, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 73 (SFME), n=999, ptype=5, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 74 (SFAE), n=999, ptype=5, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 75 (SFKE), n=999, ptype=5, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 76 (SFTE), n=999, ptype=5, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 77 (SMWP), n=999, ptype=5, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 78 (SMM ), n=999, ptype=5, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 79 (SMMS), n=999, ptype=5, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 80 (SFZ ), n=999, ptype=5, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 81 (SFZS), n=999, ptype=5, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 82 (SSIA), n=999, ptype=5, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 83 (SIAS), n=999, ptype=5, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 84 (SMET), n=999, ptype=5, dtype=1, ndim=9, bpb=4 bytes=35964d
Writing block 85 (SMTS), n=999, ptype=5, dtype=1, ndim=9, bpb=4 bytes=35964d
Writing block 86 (MF1 ), n=999, ptype=5, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 87 (MeF1), n=999, ptype=5, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 88 (MF  ), n=999, ptype=5, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 89 (MeF2), n=999, ptype=5, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 90 (MFA ), n=999, ptype=5, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 91 (MeFA), n=999, ptype=5, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 92 (NSPI), n=999, ptype=6, dtype=1, ndim=3, bpb=4 bytes=11988d
Writing block 93 (NFM ), n=999, ptype=6, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 94 (NFMT), n=999, ptype=6, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 95 (NFME), n=999, ptype=6, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 96 (NFAE), n=999, ptype=6, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 97 (NFKE), n=999, ptype=6, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 98 (NFTE), n=999, ptype=6, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 99 (SMWP), n=999, ptype=6, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 100 (SMM ), n=999, ptype=6, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 101 (SMMS), n=999, ptype=6, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 102 (SSIA), n=999, ptype=6, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 103 (SIAS), n=999, ptype=6, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 104 (SMET), n=999, ptype=6, dtype=1, ndim=9, bpb=4 bytes=35964d
Writing block 105 (SMTS), n=999, ptype=6, dtype=1, ndim=9, bpb=4 bytes=35964d
Writing block 106 (MF1 ), n=999, ptype=6, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 107 (MeF1), n=999, ptype=6, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 108 (MF2 ), n=999, ptype=6, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 109 (MeF2), n=999, ptype=6, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 110 (MFA ), n=999, ptype=6, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 111 (MeFA), n=999, ptype=6, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 112 (SM  ), n=999, ptype=4, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 113 (SFKE), n=999, ptype=4, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 114 (SFAE), n=999, ptype=4, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 115 (SMWP), n=999, ptype=4, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 116 (SMM ), n=999, ptype=4, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 117 (SMMS), n=999, ptype=4, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 118 (SSIA), n=999, ptype=4, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 119 (SIAS), n=999, ptype=4, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 120 (SMET), n=999, ptype=4, dtype=1, ndim=9, bpb=4 bytes=35964d
Writing block 121 (SMTS), n=999, ptype=4, dtype=1, ndim=9, bpb=4 bytes=35964d
Writing block 122 (MF1 ), n=999, ptype=4, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 123 (MeF1), n=999, ptype=4, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 124 (MF2 ), n=999, ptype=4, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 125 (MeF2), n=999, ptype=4, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 126 (MFA ), n=999, ptype=4, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 127 (MeFA), n=999, ptype=4, dtype=1, ndim=1, bpb=4 bytes=3996d
Writing block 128 (MMe5), n=855, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3420d
Writing block 129 (RMe5), n=855, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3420d
Writing block 130 (MCr5), n=855, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3420d
Writing block 131 (RCr5), n=855, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3420d
Writing block 132 (MMe2), n=855, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3420d
Writing block 133 (RMe2), n=855, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3420d
Writing block 134 (MCr2), n=855, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3420d
Writing block 135 (RCr2), n=855, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3420d
Writing block 136 (MAPT), n=999, ptype=7, dtype=1, ndim=60, bpb=4 bytes=239760d
Writing block 137 (SAPT), n=999, ptype=8, dtype=1, ndim=10, bpb=4 bytes=39960d
Writing block 138 (VAPT), n=999, ptype=9, dtype=1, ndim=10, bpb=4 bytes=39960d
Writing block 139 (BEGY), n=148708, ptype=2, dtype=1, ndim=1, bpb=4 bytes=594832d
Subgroup catalogues saved. took = 4.02007 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 7.069161e-01
 eagle_ph_key_ort: type= 2 timed by volker 4.611492e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.047203e-02
 eagle_ph_key_ort: type= 4 timed by volker 4.047203e-02
 eagle_ph_key_ort: type= 5 timed by volker 4.047203e-02
 eagle_ph_key_ort: timing parallel sort = 8.027170e-01
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 2736508808

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 1340.26 Mbyte (on task=0), Smallest = 1308.95 Mbyte, Average = 1311.3 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.7413    1202.7553  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5311    1227.2864  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8852    1268.1716  fof_fof()/fof.c/337
   0 2975 0             Group      1.0407    1269.2124  fof_fof()/fof.c/380
   0 2976 0          SubGroup     46.5230    1315.7353  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5265    1340.2618  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 2767712 number of bytes = 885667840

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3388.24 Mbyte (on task=0), Smallest = 3356.55 Mbyte, Average = 3359.18 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.7413    1202.7553  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5311    1227.2864  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8852    1268.1716  fof_fof()/fof.c/337
   0 2975 0             Group      1.0407    1269.2124  fof_fof()/fof.c/380
   0 2976 0          SubGroup     46.5230    1315.7353  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5265    1340.2618  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx     10.5580    1350.8198  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv     10.5580    1361.3778  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send     10.5580    1371.9358  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    844.6387    2216.5745  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    844.6387    3061.2131  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    327.0200    3388.2331  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.457788e+00
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 2736508808
 eagle_fetch_elements: max_bytes= 504, max_elements= 2105376 number of bytes = 1061109504
 eagle_ph_key_ort: timing parallel SphP exchange = 3.115892e-03
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 2736508808
 eagle_fetch_elements: max_bytes= 384, max_elements= 2753184 number of bytes = 1057222656
 eagle_ph_key_ort: timing parallel MetP exchange = 5.350113e-04
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 2736508808
 eagle_fetch_elements: max_bytes= 256, max_elements= 4098251 number of bytes = 1049152256
 eagle_ph_key_ort: timing parallel BHP exchange = 5.118847e-04
Sorting particle-data by peano-hilbert key took = 3.64463 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 2767712 number of bytes= 885667840
 eagle_ph_restore: timing parallel P exchange = 2.318014e+00
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 2105376 number of bytes= 1061109504
 eagle_ph_restore: timing parallel SphP exchange = 1.791954e-03
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2753184 number of bytes= 1057222656
 eagle_ph_restore: timing parallel MetP exchange = 6.530285e-04
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 4098251 number of bytes= 1049152256
 eagle_ph_restore: timing parallel BHP exchange = 6.558895e-04
Restoring original order after ph key sorting took = 2.33806 sec

finished writing particle file...

Finished with SUBFIND.  (total time=139.419 sec)

Finished computing FoF groups.  (presently allocated=1202.76 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=172001
After=196449
NTopleaves= 171893  NTopnodes=196449 (space for 244687)
gravity work-load balance=1.00052   memory-balance=1.00052   SPH work-load balance=0
iter=0 exchange of 0272958337 particles (ret=0)
domain decomposition done. (took 3.69176 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.20816 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 16: endrun called with an error level of 124


task 16: endrun called with an error level of 124


task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
task 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
task 128: endrun called with an error level of 124


task 128: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
task 160: endrun called with an error level of 124


task 160: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 176: endrun called with an error level of 124


task 176: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 192: endrun called with an error level of 124


task 192: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 224: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
task 224: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
Finished FOF, total time doing fof/subfind = 155.788 s
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.70 Mb (on task=112), Smallest =   62646.07 Mb (on task=0), Average =   62686.32 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1886.00 Mb (on task=0), Smallest =    1798.36 Mb (on task=112), Average =    1845.75 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16337.33 Mb (on task=112), Average =   16351.07 Mb
AllocMem:	 Largest =    1886.00 Mb (on task=0), Smallest =    1798.36 Mb (on task=112), Average =    1845.75 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_003_z003p512/snap_003_z003p512.0.hdf5' on task=0 (contains 17309344 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  17096653  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     10303  (tot=     0000303834) masstab=0
Type 3 (bulge):   202388  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.225489

Setting next time for line of sight file to Time_next= 0.222581

Setting next time for snipshot file to Time_next= 0.231858

Setting next time for fof output to Time_next= 0.231858
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=3.87415 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
Before=170289
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=170289
After=195945
NTopleaves= 171452  NTopnodes=195945 (space for 244687)
gravity work-load balance=1.0005   memory-balance=1.0005   SPH work-load balance=0
iter=0 exchange of 0273125007 particles (ret=0)
domain decomposition done. (took 9.4936 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.23123 MByte in top-level domain structure

Allocated 502.782 MByte for BH-tree, and 0.654037 Mbyte for top-leaves.  (presently allocted 1706.17 MB)

Begin Ngb-tree construction.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1752.34 Mbyte (on task=251), Smallest = 1752.27 Mbyte, Average = 1752.33 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 251 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
 251 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
 251 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
 251 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
 251 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
 251 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
 251 2972 0          TopNodes      9.7171    1202.7322  domain_allocate()/domain.c/570
 251 2973 0   DomainNodeIndex      0.6540    1203.3862  force_treeallocate()/forcetree.c/4800
 251 2974 0        Nodes_base    258.2333    1461.6195  force_treeallocate()/forcetree.c/4803
 251 2975 0     Extnodes_base    215.1944    1676.8139  force_treeallocate()/forcetree.c/4811
 251 2976 0          Nextnode     15.0507    1691.8646  force_treeallocate()/forcetree.c/4820
 251 2977 0            Father     14.3032    1706.1678  force_treeallocate()/forcetree.c/4827
 251 2978 0           Ngblist      4.0887    1710.2564  density()/density.c/690
 251 2979 0              Left      8.1773    1718.4338  density()/density.c/692
 251 2980 0             Right      8.1773    1726.6111  density()/density.c/693
 251 2981 0    DataIndexTable      7.0175    1733.6286  density()/density.c/738
 251 2982 0      DataNodeList     18.7134    1752.3421  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_3.421.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_3.638.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.17 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=174969
After=198977
NTopleaves= 174105  NTopnodes=198977 (space for 244687)
gravity work-load balance=1.00058   memory-balance=1.00058   SPH work-load balance=0
iter=0 exchange of 0273138041 particles (ret=0)
domain decomposition done. (took 3.7327 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.09244 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1202.88 MB)
Tree construction.

Start linking particles (presently allocated=1755.87 MB)
links on local processor done (took 2.35627 sec).
Marked=0021603256 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1857.46 MB) 
have done 0000669494 cross links (processed 0021603256, took 0.56884 sec)
have done 0000191476 cross links (processed 0008751158, took 0.33194 sec)
have done 0000088143 cross links (processed 0005148679, took 0.302299 sec)
have done 0000037958 cross links (processed 0002093144, took 0.273399 sec)
have done 0000016580 cross links (processed 0001019894, took 0.223965 sec)
have done 0000008319 cross links (processed 0000551726, took 0.14053 sec)
have done 0000004190 cross links (processed 0000234046, took 0.0926931 sec)
have done 0000002280 cross links (processed 0000110705, took 0.078392 sec)
have done 0000001165 cross links (processed 0000053775, took 0.078052 sec)
have done 0000000586 cross links (processed 0000021490, took 0.0515349 sec)
have done 0000000248 cross links (processed 0000011245, took 0.0547121 sec)
have done 0000000099 cross links (processed 0000001927, took 0.0447609 sec)
have done 0000000020 cross links (processed 0000000473, took 0.0438018 sec)
have done 0000000009 cross links (processed 0000000082, took 0.04372 sec)
have done 0000000002 cross links (processed 0000000047, took 0.043602 sec)
have done 0000000001 cross links (processed 0000000006, took 0.0436492 sec)
have done 0000000001 cross links (processed 0000000006, took 0.0436511 sec)
have done 0000000000 cross links (processed 0000000002, took 0.0437598 sec)
Local groups found.

group finding took = 4.94467 sec
Start finding nearest dm-particle (presently allocated=1755.87 MB)
still finding nearest... (presently allocated=1845.32 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.109726 sec
compiling local group data and catalogue took = 0.84329 sec

Total number of groups with at least 32 particles: 242344
Largest group has 742956 particles.
Total number of particles in groups: 0059428437

group properties are now allocated.. (presently allocated=1269.33 MB)
computation of group properties took = 0.037919 sec
start global sorting of group catalogues number 3
LargestGroup = 584.832085; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0515749 sec
Group catalogues globally sorted. took = 0.603823 sec
starting saving of group catalogue number 3
data//groups_003_z003p512
Group catalogues number 3 saved. took = 1.41342 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.698719 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.285127 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.683757 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0177156944 particles. (took 19.7959 sec)
ngb iteration 2: need to repeat for 0141039088 particles. (took 8.77122 sec)
ngb iteration 3: need to repeat for 0123198941 particles. (took 6.57302 sec)
ngb iteration 4: need to repeat for 0112191428 particles. (took 5.30723 sec)
ngb iteration 5: need to repeat for 0100725387 particles. (took 4.66096 sec)
ngb iteration 6: need to repeat for 0085058780 particles. (took 4.15129 sec)
ngb iteration 7: need to repeat for 0065519459 particles. (took 3.61365 sec)
ngb iteration 8: need to repeat for 0045882026 particles. (took 2.97817 sec)
ngb iteration 9: need to repeat for 0029671714 particles. (took 2.23292 sec)
ngb iteration 10: need to repeat for 0018078654 particles. (took 1.55737 sec)
ngb iteration 11: need to repeat for 0010564279 particles. (took 1.02287 sec)
ngb iteration 12: need to repeat for 0005986405 particles. (took 0.604984 sec)
ngb iteration 13: need to repeat for 0003315097 particles. (took 0.368496 sec)
ngb iteration 14: need to repeat for 0001723155 particles. (took 0.2374 sec)
ngb iteration 15: need to repeat for 0000760480 particles. (took 0.157377 sec)
ngb iteration 16: need to repeat for 0000322112 particles. (took 0.0987599 sec)
ngb iteration 17: need to repeat for 0000137771 particles. (took 0.069756 sec)
ngb iteration 18: need to repeat for 0000059668 particles. (took 0.055994 sec)
ngb iteration 19: need to repeat for 0000025435 particles. (took 0.048969 sec)
ngb iteration 20: need to repeat for 0000010605 particles. (took 0.0448911 sec)
ngb iteration 21: need to repeat for 0000004009 particles. (took 0.0427139 sec)
ngb iteration 22: need to repeat for 0000001437 particles. (took 0.041311 sec)
ngb iteration 23: need to repeat for 0000000453 particles. (took 0.040601 sec)
ngb iteration 24: need to repeat for 0000000143 particles. (took 0.0405359 sec)
ngb iteration 25: need to repeat for 0000000033 particles. (took 0.0402188 sec)
ngb iteration 26: need to repeat for 0000000010 particles. (took 0.040477 sec)
ngb iteration 27: need to repeat for 0000000002 particles. (took 0.0410922 sec)
ngb iteration 28: need to repeat for 0000000001 particles. (took 0.0402482 sec)
final operations ... 
density and smoothing length for species 1 took 63.0462 sec
Tree construction.
tree build took 0.696571 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.282378 sec
Tree construction.
tree build took 0.680999 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.28214 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.168038 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.90745 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.684713 sec
density() of species 1 took 0 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.18558 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.90861 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.16362 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.90942 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.877911 sec
saving densities took 2.13136 sec

Number of FOF halos treated with collective SubFind code = 0
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 242344 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 27360 - 19954404 

subfind_exchange()() took 0.921218 sec
processing of collective halos took 2.86102e-06 sec
sort of local particles()() took 1.24969 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 110.094 sec

Task 154: testing particles ...
Task 81: testing particles ...
Task 164: testing particles ...
Task 179: testing particles ...
Task 255: testing particles ...
Task 186: testing particles ...
Task 225: testing particles ...
Task 247: testing particles ...
Task 234: testing particles ...
Task 62: testing particles ...
Task 157: testing particles ...
Task 203: testing particles ...
Task 74: testing particles ...
Task 130: testing particles ...
Task 170: testing particles ...
Task 220: testing particles ...
Task 159: testing particles ...
Task 248: testing particles ...
Task 207: testing particles ...
Task 133: testing particles ...
Task 106: testing particles ...
Task 109: testing particles ...
Task 89: testing particles ...
Task 168: testing particles ...
Task 145: testing particles ...
Task 197: testing particles ...
Task 249: testing particles ...
Task 104: testing particles ...
Task 233: testing particles ...
Task 238: testing particles ...
Task 237: testing particles ...
Task 161: testing particles ...
Task 100: testing particles ...
Task 253: testing particles ...
Task 240: testing particles ...
Task 160: testing particles ...
Task 110: testing particles ...
Task 60: testing particles ...
Task 115: testing particles ...
Task 127: testing particles ...
Task 245: testing particles ...
Task 209: testing particles ...
Task 92: testing particles ...
Task 214: testing particles ...
Task 180: testing particles ...
Task 190: testing particles ...
Task 205: testing particles ...
Task 80: testing particles ...
Task 216: testing particles ...
Task 236: testing particles ...
Task 65: testing particles ...
Task 120: testing particles ...
Task 129: testing particles ...
Task 90: testing particles ...
Task 152: testing particles ...
Task 230: testing particles ...
Task 192: testing particles ...
Task 201: testing particles ...
Task 143: testing particles ...
Task 163: testing particles ...
Task 153: testing particles ...
Task 75: testing particles ...
Task 208: testing particles ...
Task 210: testing particles ...
Task 195: testing particles ...
Task 122: testing particles ...
Task 87: testing particles ...
Task 250: testing particles ...
Task 98: testing particles ...
Task 59: testing particles ...
Task 196: testing particles ...
Task 68: testing particles ...
Task 128: testing particles ...
Task 251: testing particles ...
Task 96: testing particles ...
Task 244: testing particles ...
Task 95: testing particles ...
Task 231: testing particles ...
Task 76: testing particles ...
Task 228: testing particles ...
Task 121: testing particles ...
Task 61: testing particles ...
Task 246: testing particles ...
Task 217: testing particles ...
Task 139: testing particles ...
Task 194: testing particles ...
Task 146: testing particles ...
Task 212: testing particles ...
Task 88: testing particles ...
Task 83: testing particles ...
Task 48: testing particles ...
Task 142: testing particles ...
Task 102: testing particles ...
Task 241: testing particles ...
Task 223: testing particles ...
Task 204: testing particles ...
Task 105: testing particles ...
Task 211: testing particles ...
Task 235: testing particles ...
Task 181: testing particles ...
Task 149: testing particles ...
Task 184: testing particles ...
Task 171: testing particles ...
Task 39: testing particles ...
Task 117: testing particles ...
Task 46: testing particles ...
Task 42: testing particles ...
Task 56: testing particles ...
Task 125: testing particles ...
Task 141: testing particles ...
Task 66: testing particles ...
Task 91: testing particles ...
Task 174: testing particles ...
Task 219: testing particles ...
Task 221: testing particles ...
Task 34: testing particles ...
Task 148: testing particles ...
Task 112: testing particles ...
Task 193: testing particles ...
Task 43: testing particles ...
Task 23: testing particles ...
Task 103: testing particles ...
Task 155: testing particles ...
Task 188: testing particles ...
Task 226: testing particles ...
Task 172: testing particles ...
Task 49: testing particles ...
Task 185: testing particles ...
Task 135: testing particles ...
Task 215: testing particles ...
Task 47: testing particles ...
Task 243: testing particles ...
Task 24: testing particles ...
Task 183: testing particles ...
Task 140: testing particles ...
Task 94: testing particles ...
Task 53: testing particles ...
Task 124: testing particles ...
Task 126: testing particles ...
Task 138: testing particles ...
Task 71: testing particles ...
Task 113: testing particles ...
Task 41: testing particles ...
Task 114: testing particles ...
Task 177: testing particles ...
Task 222: testing particles ...
Task 64: testing particles ...
Task 107: testing particles ...
Task 45: testing particles ...
Task 137: testing particles ...
Task 202: testing particles ...
Task 85: testing particles ...
Task 131: testing particles ...
Task 97: testing particles ...
Task 162: testing particles ...
Task 69: testing particles ...
Task 252: testing particles ...
Task 27: testing particles ...
Task 26: testing particles ...
Task 147: testing particles ...
Task 77: testing particles ...
Task 150: testing particles ...
Task 166: testing particles ...
Task 118: testing particles ...
Task 173: testing particles ...
Task 191: testing particles ...
Task 189: testing particles ...
Task 169: testing particles ...
Task 175: testing particles ...
Task 25: testing particles ...
Task 206: testing particles ...
Task 227: testing particles ...
Task 123: testing particles ...
Task 200: testing particles ...
Task 254: testing particles ...
Task 18: testing particles ...
Task 37: testing particles ...
Task 54: testing particles ...
Task 22: testing particles ...
Task 15: testing particles ...
Task 93: testing particles ...
Task 213: testing particles ...
Task 99: testing particles ...
Task 242: testing particles ...
Task 108: testing particles ...
Task 44: testing particles ...
Task 67: testing particles ...
Task 116: testing particles ...
Task 199: testing particles ...
Task 32: testing particles ...
Task 78: testing particles ...
Task 72: testing particles ...
Task 178: testing particles ...
Task 156: testing particles ...
Task 151: testing particles ...
Task 218: testing particles ...
Task 20: testing particles ...
Task 158: testing particles ...
Task 144: testing particles ...
Task 119: testing particles ...
Task 70: testing particles ...
Task 232: testing particles ...
Task 224: testing particles ...
Task 79: testing particles ...
Task 36: testing particles ...
Task 176: testing particles ...
Task 52: testing particles ...
Task 82: testing particles ...
Task 50: testing particles ...
Task 28: testing particles ...
Task 187: testing particles ...
Task 182: testing particles ...
Task 86: testing particles ...
Task 40: testing particles ...
Task 73: testing particles ...
Task 167: testing particles ...
Task 229: testing particles ...
Task 239: testing particles ...
Task 132: testing particles ...
Task 165: testing particles ...
Task 35: testing particles ...
Task 19: testing particles ...
Task 29: testing particles ...
Task 51: testing particles ...
Task 12: testing particles ...
Task 31: testing particles ...
Task 6: testing particles ...
Task 13: testing particles ...
Task 9: testing particles ...
Task 101: testing particles ...
Task 57: testing particles ...
Task 136: testing particles ...
Task 38: testing particles ...
Task 198: testing particles ...
Task 134: testing particles ...
Task 84: testing particles ...
Task 11: testing particles ...
Task 55: testing particles ...
Task 17: testing particles ...
Task 30: testing particles ...
Task 63: testing particles ...
Task 21: testing particles ...
Task 111: testing particles ...
Task 16: testing particles ...
Task 7: testing particles ...
Task 8: testing particles ...
Task 58: testing particles ...
Task 33: testing particles ...
Task 14: testing particles ...
Task 5: testing particles ...
Task 10: testing particles ...
Task 3: testing particles ...
Task 4: testing particles ...
Task 2: testing particles ...
Task 1: testing particles ...
unsorting of local particles()() took 1.13013 sec
Task 0: testing particles ...
subfind_exchange() (for return to original CPU)  took 0.944256 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1370.62 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1430.18 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1430.18 Mbyte (on task=0), Smallest = 1349.47 Mbyte, Average = 1354.24 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.8675    1202.8815  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5105    1227.3920  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8509    1268.2429  fof_fof()/fof.c/337
   0 2975 0             Group      1.0905    1269.3335  fof_fof()/fof.c/380
   0 2976 0          SubGroup    101.2912    1370.6246  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    1382.8839  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    1411.4904  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    1412.4355  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    1413.3689  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    1414.3023  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    1415.2357  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    1416.1730  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    1417.1104  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    1430.1781  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=179497
After=202097
NTopleaves= 176835  NTopnodes=202097 (space for 244687)
gravity work-load balance=1.00043   memory-balance=1.00043   SPH work-load balance=0
iter=0 exchange of 0273231421 particles (ret=0)
domain decomposition done. (took 3.80639 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.94962 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000220325 particles. (took 0.034374 sec)
SO iteration 2: need to repeat for 0000220325 particles. (took 0.022383 sec)
SO iteration 3: need to repeat for 0000220325 particles. (took 0.0241561 sec)
SO iteration 4: need to repeat for 0000220325 particles. (took 0.024852 sec)
SO iteration 5: need to repeat for 0000220325 particles. (took 0.0253279 sec)
SO iteration 6: need to repeat for 0000220325 particles. (took 0.0250151 sec)
SO iteration 7: need to repeat for 0000220325 particles. (took 0.0249269 sec)
SO iteration 8: need to repeat for 0000220325 particles. (took 0.0249209 sec)
SO iteration 9: need to repeat for 0000220325 particles. (took 0.0248911 sec)
SO iteration 10: need to repeat for 0000220325 particles. (took 0.0250401 sec)
SO iteration 11: need to repeat for 0000220325 particles. (took 0.0253091 sec)
SO iteration 12: need to repeat for 0000220325 particles. (took 0.0250871 sec)
SO iteration 13: need to repeat for 0000220325 particles. (took 0.0248551 sec)
SO iteration 14: need to repeat for 0000220325 particles. (took 0.024929 sec)
SO iteration 15: need to repeat for 0000220174 particles. (took 0.024847 sec)
SO iteration 16: need to repeat for 0000004561 particles. (took 0.02528 sec)
SO iteration 17: need to repeat for 0000000038 particles. (took 0.00227404 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000607014 sec)
SO iteration 1: need to repeat for 0000220325 particles. (took 0.0257838 sec)
SO iteration 2: need to repeat for 0000220325 particles. (took 0.022294 sec)
SO iteration 3: need to repeat for 0000220325 particles. (took 0.0228698 sec)
SO iteration 4: need to repeat for 0000220325 particles. (took 0.022625 sec)
SO iteration 5: need to repeat for 0000220325 particles. (took 0.0224659 sec)
SO iteration 6: need to repeat for 0000220325 particles. (took 0.0224729 sec)
SO iteration 7: need to repeat for 0000220325 particles. (took 0.0226331 sec)
SO iteration 8: need to repeat for 0000220325 particles. (took 0.0228639 sec)
SO iteration 9: need to repeat for 0000220325 particles. (took 0.022752 sec)
SO iteration 10: need to repeat for 0000220325 particles. (took 0.0231621 sec)
SO iteration 11: need to repeat for 0000220325 particles. (took 0.022861 sec)
SO iteration 12: need to repeat for 0000220325 particles. (took 0.0231209 sec)
SO iteration 13: need to repeat for 0000220325 particles. (took 0.023128 sec)
SO iteration 14: need to repeat for 0000220325 particles. (took 0.0227931 sec)
SO iteration 15: need to repeat for 0000220307 particles. (took 0.0230551 sec)
SO iteration 16: need to repeat for 0000163026 particles. (took 0.022929 sec)
SO iteration 17: need to repeat for 0000003676 particles. (took 0.0181479 sec)
SO iteration 18: need to repeat for 0000000043 particles. (took 0.00233102 sec)
SO iteration 19: need to repeat for 0000000003 particles. (took 0.000804901 sec)
SO iteration 1: need to repeat for 0000220325 particles. (took 0.025928 sec)
SO iteration 2: need to repeat for 0000220325 particles. (took 0.0223489 sec)
SO iteration 3: need to repeat for 0000220325 particles. (took 0.0190492 sec)
SO iteration 4: need to repeat for 0000220325 particles. (took 0.0182021 sec)
SO iteration 5: need to repeat for 0000220325 particles. (took 0.018522 sec)
SO iteration 6: need to repeat for 0000220325 particles. (took 0.0185499 sec)
SO iteration 7: need to repeat for 0000220325 particles. (took 0.0185368 sec)
SO iteration 8: need to repeat for 0000220325 particles. (took 0.0188401 sec)
SO iteration 9: need to repeat for 0000220325 particles. (took 0.018528 sec)
SO iteration 10: need to repeat for 0000220325 particles. (took 0.0183742 sec)
SO iteration 11: need to repeat for 0000220325 particles. (took 0.018476 sec)
SO iteration 12: need to repeat for 0000220325 particles. (took 0.018163 sec)
SO iteration 13: need to repeat for 0000220325 particles. (took 0.020406 sec)
SO iteration 14: need to repeat for 0000220325 particles. (took 0.0197208 sec)
SO iteration 15: need to repeat for 0000220325 particles. (took 0.0184519 sec)
SO iteration 16: need to repeat for 0000220321 particles. (took 0.0184 sec)
SO iteration 17: need to repeat for 0000217296 particles. (took 0.0184679 sec)
SO iteration 18: need to repeat for 0000045630 particles. (took 0.018162 sec)
SO iteration 19: need to repeat for 0000000446 particles. (took 0.00840211 sec)
SO iteration 20: need to repeat for 0000000016 particles. (took 0.000852108 sec)
SO iteration 21: need to repeat for 0000000001 particles. (took 0.000602961 sec)
SO iteration 1: need to repeat for 0000220325 particles. (took 0.026273 sec)
SO iteration 2: need to repeat for 0000220325 particles. (took 0.0238469 sec)
SO iteration 3: need to repeat for 0000220325 particles. (took 0.03614 sec)
SO iteration 4: need to repeat for 0000220325 particles. (took 0.028039 sec)
SO iteration 5: need to repeat for 0000220325 particles. (took 0.032191 sec)
SO iteration 6: need to repeat for 0000220325 particles. (took 0.0399129 sec)
SO iteration 7: need to repeat for 0000220325 particles. (took 0.0316112 sec)
SO iteration 8: need to repeat for 0000220325 particles. (took 0.0262141 sec)
SO iteration 9: need to repeat for 0000220325 particles. (took 0.026341 sec)
SO iteration 10: need to repeat for 0000220325 particles. (took 0.0254622 sec)
SO iteration 11: need to repeat for 0000220325 particles. (took 0.0258989 sec)
SO iteration 12: need to repeat for 0000220325 particles. (took 0.025738 sec)
SO iteration 13: need to repeat for 0000220325 particles. (took 0.0258799 sec)
SO iteration 14: need to repeat for 0000220325 particles. (took 0.0258949 sec)
SO iteration 15: need to repeat for 0000220136 particles. (took 0.025389 sec)
SO iteration 16: need to repeat for 0000002426 particles. (took 0.0260472 sec)
SO iteration 17: need to repeat for 0000000024 particles. (took 0.00155997 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.00078392 sec)
SO iteration 1: need to repeat for 0000220325 particles. (took 0.0263491 sec)
SO iteration 2: need to repeat for 0000220325 particles. (took 0.0226521 sec)
SO iteration 3: need to repeat for 0000220325 particles. (took 0.0248551 sec)
SO iteration 4: need to repeat for 0000220325 particles. (took 0.0259581 sec)
SO iteration 5: need to repeat for 0000220325 particles. (took 0.0273838 sec)
SO iteration 6: need to repeat for 0000220325 particles. (took 0.0273089 sec)
SO iteration 7: need to repeat for 0000220325 particles. (took 0.0271852 sec)
SO iteration 8: need to repeat for 0000220325 particles. (took 0.027374 sec)
SO iteration 9: need to repeat for 0000220325 particles. (took 0.0257919 sec)
SO iteration 10: need to repeat for 0000220325 particles. (took 0.025795 sec)
SO iteration 11: need to repeat for 0000220325 particles. (took 0.025115 sec)
SO iteration 12: need to repeat for 0000220325 particles. (took 0.025393 sec)
SO iteration 13: need to repeat for 0000220325 particles. (took 0.025604 sec)
SO iteration 14: need to repeat for 0000220325 particles. (took 0.02548 sec)
SO iteration 15: need to repeat for 0000220183 particles. (took 0.0277181 sec)
SO iteration 16: need to repeat for 0000005155 particles. (took 0.0254931 sec)
SO iteration 17: need to repeat for 0000000041 particles. (took 0.00247097 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000758171 sec)
SO iteration 1: need to repeat for 0000220325 particles. (took 0.028347 sec)
SO iteration 2: need to repeat for 0000220325 particles. (took 0.0244269 sec)
SO iteration 3: need to repeat for 0000220325 particles. (took 0.0233581 sec)
SO iteration 4: need to repeat for 0000220325 particles. (took 0.0247769 sec)
SO iteration 5: need to repeat for 0000220325 particles. (took 0.0234139 sec)
SO iteration 6: need to repeat for 0000220325 particles. (took 0.022912 sec)
SO iteration 7: need to repeat for 0000220325 particles. (took 0.024842 sec)
SO iteration 8: need to repeat for 0000220325 particles. (took 0.0241449 sec)
SO iteration 9: need to repeat for 0000220325 particles. (took 0.0240839 sec)
SO iteration 10: need to repeat for 0000220325 particles. (took 0.0235231 sec)
SO iteration 11: need to repeat for 0000220325 particles. (took 0.0241761 sec)
SO iteration 12: need to repeat for 0000220325 particles. (took 0.023422 sec)
SO iteration 13: need to repeat for 0000220325 particles. (took 0.023576 sec)
SO iteration 14: need to repeat for 0000220325 particles. (took 0.0251279 sec)
SO iteration 15: need to repeat for 0000220308 particles. (took 0.0250361 sec)
SO iteration 16: need to repeat for 0000171903 particles. (took 0.0254569 sec)
SO iteration 17: need to repeat for 0000004028 particles. (took 0.0198808 sec)
SO iteration 18: need to repeat for 0000000044 particles. (took 0.00216484 sec)
SO iteration 19: need to repeat for 0000000003 particles. (took 0.000661135 sec)
SO iteration 1: need to repeat for 0000220325 particles. (took 0.0262189 sec)
SO iteration 2: need to repeat for 0000220325 particles. (took 0.0226278 sec)
SO iteration 3: need to repeat for 0000220325 particles. (took 0.019042 sec)
SO iteration 4: need to repeat for 0000220325 particles. (took 0.0177031 sec)
SO iteration 5: need to repeat for 0000220325 particles. (took 0.0183752 sec)
SO iteration 6: need to repeat for 0000220325 particles. (took 0.0185032 sec)
SO iteration 7: need to repeat for 0000220325 particles. (took 0.0181251 sec)
SO iteration 8: need to repeat for 0000220325 particles. (took 0.0184829 sec)
SO iteration 9: need to repeat for 0000220325 particles. (took 0.0186901 sec)
SO iteration 10: need to repeat for 0000220325 particles. (took 0.018599 sec)
SO iteration 11: need to repeat for 0000220325 particles. (took 0.0181649 sec)
SO iteration 12: need to repeat for 0000220325 particles. (took 0.0184078 sec)
SO iteration 13: need to repeat for 0000220325 particles. (took 0.0182269 sec)
SO iteration 14: need to repeat for 0000220325 particles. (took 0.0180891 sec)
SO iteration 15: need to repeat for 0000220325 particles. (took 0.0199709 sec)
SO iteration 16: need to repeat for 0000220322 particles. (took 0.0181451 sec)
SO iteration 17: need to repeat for 0000218114 particles. (took 0.018126 sec)
SO iteration 18: need to repeat for 0000049005 particles. (took 0.017983 sec)
SO iteration 19: need to repeat for 0000000487 particles. (took 0.008425 sec)
SO iteration 20: need to repeat for 0000000016 particles. (took 0.000729084 sec)
SO iteration 21: need to repeat for 0000000001 particles. (took 0.0006001 sec)
determining spherical overdensity masses took 2.80241 sec
finding spherical overdensity particles took 0.655034 sec
determining contamination of halos took 0.268137 sec
Global sort of Groups took 0.175152 sec
Global sort of SubGroups took 0.570669 sec
Global sort of IDs took 0.267745 sec
Writing block 0 (GLEN), n=947, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3788d
Writing block 1 (GOFF), n=947, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3788d
Writing block 2 (MTOT), n=947, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3788d
Writing block 3 (GPOS), n=947, ptype=0, dtype=1, ndim=3, bpb=4 bytes=11364d
Writing block 4 (MMEA), n=947, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3788d
Writing block 5 (RMEA), n=947, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3788d
Writing block 6 (MCRI), n=947, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3788d
Writing block 7 (RCRI), n=947, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3788d
Writing block 8 (MTOP), n=947, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3788d
Writing block 9 (RTOP), n=947, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3788d
Writing block 17 (NCON), n=947, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3788d
Writing block 18 (MCON), n=947, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3788d
Writing block 22 (NSUB), n=947, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3788d
Writing block 23 (FSUB), n=947, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3788d
Writing block 24 (SLEN), n=1417, ptype=1, dtype=0, ndim=1, bpb=4 bytes=5668d
Writing block 25 (SOFF), n=1417, ptype=1, dtype=0, ndim=1, bpb=4 bytes=5668d
Writing block 27 (MSUB), n=1417, ptype=1, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 28 (SPOS), n=1417, ptype=1, dtype=1, ndim=3, bpb=4 bytes=17004d
Writing block 29 (SVEL), n=1417, ptype=1, dtype=1, ndim=3, bpb=4 bytes=17004d
Writing block 30 (SCM ), n=1417, ptype=1, dtype=1, ndim=3, bpb=4 bytes=17004d
Writing block 33 (VMAX), n=1417, ptype=1, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 34 (RMAX), n=1417, ptype=1, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 35 (RHMS), n=1417, ptype=1, dtype=1, ndim=6, bpb=4 bytes=34008d
Writing block 36 (MTRH), n=1417, ptype=1, dtype=1, ndim=6, bpb=4 bytes=34008d
Writing block 37 (MBID), n=1417, ptype=1, dtype=2, ndim=1, bpb=8 bytes=11336d
Writing block 38 (GRNR), n=1417, ptype=1, dtype=0, ndim=1, bpb=4 bytes=5668d
Writing block 39 (SUBN), n=1417, ptype=1, dtype=0, ndim=1, bpb=4 bytes=5668d
Writing block 40 (SMST), n=1417, ptype=1, dtype=1, ndim=6, bpb=4 bytes=34008d
Writing block 53 (PID ), n=276657, ptype=2, dtype=2, ndim=1, bpb=8 bytes=2213256d
Writing block 54 (SLEN), n=1417, ptype=1, dtype=0, ndim=6, bpb=4 bytes=34008d
Writing block 55 (STEN), n=1417, ptype=1, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 56 (SKEN), n=1417, ptype=1, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 57 (SUEN), n=1417, ptype=1, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 58 (SUIT), n=1417, ptype=1, dtype=1, ndim=9, bpb=4 bytes=51012d
Writing block 59 (BHMA), n=1417, ptype=1, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 60 (BHMD), n=1417, ptype=1, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 61 (SVD ), n=1417, ptype=1, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 62 (SVDH), n=1417, ptype=1, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 63 (HMPR), n=1417, ptype=1, dtype=1, ndim=6, bpb=4 bytes=34008d
Writing block 64 (SSFR), n=1417, ptype=1, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 65 (SSA ), n=1417, ptype=1, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 66 (SSBZ), n=1417, ptype=1, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 67 (SSIM), n=1417, ptype=1, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 68 (SSPI), n=1417, ptype=4, dtype=1, ndim=3, bpb=4 bytes=17004d
Writing block 69 (GSPI), n=1417, ptype=1, dtype=1, ndim=3, bpb=4 bytes=17004d
Writing block 70 (FSPI), n=1417, ptype=5, dtype=1, ndim=3, bpb=4 bytes=17004d
Writing block 71 (SFM ), n=1417, ptype=5, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 72 (SFMT), n=1417, ptype=5, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 73 (SFME), n=1417, ptype=5, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 74 (SFAE), n=1417, ptype=5, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 75 (SFKE), n=1417, ptype=5, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 76 (SFTE), n=1417, ptype=5, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 77 (SMWP), n=1417, ptype=5, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 78 (SMM ), n=1417, ptype=5, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 79 (SMMS), n=1417, ptype=5, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 80 (SFZ ), n=1417, ptype=5, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 81 (SFZS), n=1417, ptype=5, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 82 (SSIA), n=1417, ptype=5, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 83 (SIAS), n=1417, ptype=5, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 84 (SMET), n=1417, ptype=5, dtype=1, ndim=9, bpb=4 bytes=51012d
Writing block 85 (SMTS), n=1417, ptype=5, dtype=1, ndim=9, bpb=4 bytes=51012d
Writing block 86 (MF1 ), n=1417, ptype=5, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 87 (MeF1), n=1417, ptype=5, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 88 (MF  ), n=1417, ptype=5, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 89 (MeF2), n=1417, ptype=5, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 90 (MFA ), n=1417, ptype=5, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 91 (MeFA), n=1417, ptype=5, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 92 (NSPI), n=1417, ptype=6, dtype=1, ndim=3, bpb=4 bytes=17004d
Writing block 93 (NFM ), n=1417, ptype=6, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 94 (NFMT), n=1417, ptype=6, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 95 (NFME), n=1417, ptype=6, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 96 (NFAE), n=1417, ptype=6, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 97 (NFKE), n=1417, ptype=6, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 98 (NFTE), n=1417, ptype=6, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 99 (SMWP), n=1417, ptype=6, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 100 (SMM ), n=1417, ptype=6, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 101 (SMMS), n=1417, ptype=6, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 102 (SSIA), n=1417, ptype=6, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 103 (SIAS), n=1417, ptype=6, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 104 (SMET), n=1417, ptype=6, dtype=1, ndim=9, bpb=4 bytes=51012d
Writing block 105 (SMTS), n=1417, ptype=6, dtype=1, ndim=9, bpb=4 bytes=51012d
Writing block 106 (MF1 ), n=1417, ptype=6, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 107 (MeF1), n=1417, ptype=6, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 108 (MF2 ), n=1417, ptype=6, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 109 (MeF2), n=1417, ptype=6, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 110 (MFA ), n=1417, ptype=6, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 111 (MeFA), n=1417, ptype=6, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 112 (SM  ), n=1417, ptype=4, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 113 (SFKE), n=1417, ptype=4, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 114 (SFAE), n=1417, ptype=4, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 115 (SMWP), n=1417, ptype=4, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 116 (SMM ), n=1417, ptype=4, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 117 (SMMS), n=1417, ptype=4, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 118 (SSIA), n=1417, ptype=4, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 119 (SIAS), n=1417, ptype=4, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 120 (SMET), n=1417, ptype=4, dtype=1, ndim=9, bpb=4 bytes=51012d
Writing block 121 (SMTS), n=1417, ptype=4, dtype=1, ndim=9, bpb=4 bytes=51012d
Writing block 122 (MF1 ), n=1417, ptype=4, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 123 (MeF1), n=1417, ptype=4, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 124 (MF2 ), n=1417, ptype=4, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 125 (MeF2), n=1417, ptype=4, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 126 (MFA ), n=1417, ptype=4, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 127 (MeFA), n=1417, ptype=4, dtype=1, ndim=1, bpb=4 bytes=5668d
Writing block 128 (MMe5), n=947, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3788d
Writing block 129 (RMe5), n=947, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3788d
Writing block 130 (MCr5), n=947, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3788d
Writing block 131 (RCr5), n=947, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3788d
Writing block 132 (MMe2), n=947, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3788d
Writing block 133 (RMe2), n=947, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3788d
Writing block 134 (MCr2), n=947, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3788d
Writing block 135 (RCr2), n=947, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3788d
Writing block 136 (MAPT), n=1417, ptype=7, dtype=1, ndim=60, bpb=4 bytes=340080d
Writing block 137 (SAPT), n=1417, ptype=8, dtype=1, ndim=10, bpb=4 bytes=56680d
Writing block 138 (VAPT), n=1417, ptype=9, dtype=1, ndim=10, bpb=4 bytes=56680d
Writing block 139 (BEGY), n=276657, ptype=2, dtype=1, ndim=1, bpb=4 bytes=1106628d
Subgroup catalogues saved. took = 5.45612 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 6.902239e-01
 eagle_ph_key_ort: type= 2 timed by volker 6.778407e-02
 eagle_ph_key_ort: type= 3 timed by volker 5.125213e-02
 eagle_ph_key_ort: type= 4 timed by volker 5.125213e-02
 eagle_ph_key_ort: type= 5 timed by volker 5.125213e-02
 eagle_ph_key_ort: timing parallel sort = 8.155949e-01
 eagle_fetch_elements: we are using 2143159980 bytes of memory, FreeBytes= 2678949976

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 1395.16 Mbyte (on task=0), Smallest = 1314.42 Mbyte, Average = 1319.21 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.8675    1202.8815  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5105    1227.3920  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8509    1268.2429  fof_fof()/fof.c/337
   0 2975 0             Group      1.0905    1269.3335  fof_fof()/fof.c/380
   0 2976 0          SubGroup    101.2912    1370.6246  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5296    1395.1542  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 2761043 number of bytes = 883533760

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3439.02 Mbyte (on task=0), Smallest = 3357.45 Mbyte, Average = 3362.95 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.8675    1202.8815  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5105    1227.3920  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8509    1268.2429  fof_fof()/fof.c/337
   0 2975 0             Group      1.0905    1269.3335  fof_fof()/fof.c/380
   0 2976 0          SubGroup    101.2912    1370.6246  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5296    1395.1542  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx     10.5325    1405.6868  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv     10.5325    1416.2193  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send     10.5325    1426.7519  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    842.6035    2269.3553  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    842.6035    3111.9588  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    327.0609    3439.0196  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.665994e+00
 eagle_fetch_elements: we are using 2143159980 bytes of memory, FreeBytes= 2678949976
 eagle_fetch_elements: max_bytes= 504, max_elements= 2101137 number of bytes = 1058973048
 eagle_ph_key_ort: timing parallel SphP exchange = 7.036924e-03
 eagle_fetch_elements: we are using 2143159980 bytes of memory, FreeBytes= 2678949976
 eagle_fetch_elements: max_bytes= 384, max_elements= 2747641 number of bytes = 1055094144
 eagle_ph_key_ort: timing parallel MetP exchange = 5.590916e-04
 eagle_fetch_elements: we are using 2143159980 bytes of memory, FreeBytes= 2678949976
 eagle_fetch_elements: max_bytes= 256, max_elements= 4089999 number of bytes = 1047039744
 eagle_ph_key_ort: timing parallel BHP exchange = 5.400181e-04
Sorting particle-data by peano-hilbert key took = 3.86933 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 2143159980 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 2761043 number of bytes= 883533760
 eagle_ph_restore: timing parallel P exchange = 2.532308e+00
 eagle_send_elements: we are using 2143159980 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 2101137 number of bytes= 1058973048
 eagle_ph_restore: timing parallel SphP exchange = 2.501965e-03
 eagle_send_elements: we are using 2143159980 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2747641 number of bytes= 1055094144
 eagle_ph_restore: timing parallel MetP exchange = 7.300377e-04
 eagle_send_elements: we are using 2143159980 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 4089999 number of bytes= 1047039744
 eagle_ph_restore: timing parallel BHP exchange = 6.461143e-04
Restoring original order after ph key sorting took = 2.55318 sec

finished writing particle file...

Finished with SUBFIND.  (total time=234.578 sec)

Finished computing FoF groups.  (presently allocated=1202.88 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=174097
After=198817
NTopleaves= 173965  NTopnodes=198817 (space for 244687)
gravity work-load balance=1.00057   memory-balance=1.00057   SPH work-load balance=0
iter=0 exchange of 0273314536 particles (ret=0)
domain decomposition done. (took 3.96406 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.09976 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 16: endrun called with an error level of 124


task 16: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
task 128: endrun called with an error level of 124


task 128: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 160: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
task 160: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 176: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
task 176: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 192: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
task 192: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
Finished FOF, total time doing fof/subfind = 253.146 s
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.69 Mb (on task=112), Smallest =   62646.57 Mb (on task=0), Average =   62687.06 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1885.49 Mb (on task=0), Smallest =    1798.37 Mb (on task=112), Average =    1845.01 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16337.36 Mb (on task=112), Average =   16351.11 Mb
AllocMem:	 Largest =    1885.49 Mb (on task=0), Smallest =    1798.37 Mb (on task=112), Average =    1845.01 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_004_z002p825/snap_004_z002p825.0.hdf5' on task=0 (contains 17059617 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  16971843  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     22986  (tot=     0000303834) masstab=0
Type 3 (bulge):    64788  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.261498

Setting next time for line of sight file to Time_next= 0.263603

Setting next time for snipshot file to Time_next= 0.27096

Setting next time for fof output to Time_next= 0.27096
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=3.98563 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
Before=172657
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=172657
After=197105
NTopleaves= 172467  NTopnodes=197105 (space for 244687)
gravity work-load balance=1.00045   memory-balance=1.00045   SPH work-load balance=0
iter=0 exchange of 0273004211 particles (ret=0)
domain decomposition done. (took 9.56518 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.17813 MByte in top-level domain structure

Allocated 502.981 MByte for BH-tree, and 0.657909 Mbyte for top-leaves.  (presently allocted 1706.43 MB)

Begin Ngb-tree construction.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1752.6 Mbyte (on task=148), Smallest = 1752.49 Mbyte, Average = 1752.59 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 148 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
 148 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
 148 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
 148 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
 148 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
 148 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
 148 2972 0          TopNodes      9.7747    1202.7897  domain_allocate()/domain.c/570
 148 2973 0   DomainNodeIndex      0.6579    1203.4476  force_treeallocate()/forcetree.c/4800
 148 2974 0        Nodes_base    258.3395    1461.7871  force_treeallocate()/forcetree.c/4803
 148 2975 0     Extnodes_base    215.2829    1677.0700  force_treeallocate()/forcetree.c/4811
 148 2976 0          Nextnode     15.0551    1692.1251  force_treeallocate()/forcetree.c/4820
 148 2977 0            Father     14.3032    1706.4283  force_treeallocate()/forcetree.c/4827
 148 2978 0           Ngblist      4.0885    1710.5168  density()/density.c/690
 148 2979 0              Left      8.1769    1718.6937  density()/density.c/692
 148 2980 0             Right      8.1769    1726.8706  density()/density.c/693
 148 2981 0    DataIndexTable      7.0175    1733.8881  density()/density.c/738
 148 2982 0      DataNodeList     18.7134    1752.6016  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_2.649.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_2.829.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.43 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=177921
After=200065
NTopleaves= 175057  NTopnodes=200065 (space for 244687)
gravity work-load balance=1.00053   memory-balance=1.00053   SPH work-load balance=0
iter=0 exchange of 0273273184 particles (ret=0)
domain decomposition done. (took 3.68054 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.04263 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1202.94 MB)
Tree construction.

Start linking particles (presently allocated=1756.12 MB)
links on local processor done (took 2.7379 sec).
Marked=0025321823 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1857.72 MB) 
have done 0000753071 cross links (processed 0025321823, took 0.673806 sec)
have done 0000244152 cross links (processed 0012559870, took 0.430401 sec)
have done 0000127774 cross links (processed 0008323515, took 0.412145 sec)
have done 0000061597 cross links (processed 0004048521, took 0.332546 sec)
have done 0000030415 cross links (processed 0001751359, took 0.164093 sec)
have done 0000014355 cross links (processed 0000650952, took 0.100643 sec)
have done 0000006486 cross links (processed 0000296615, took 0.115163 sec)
have done 0000002634 cross links (processed 0000089667, took 0.0602589 sec)
have done 0000001071 cross links (processed 0000056384, took 0.070828 sec)
have done 0000000365 cross links (processed 0000008227, took 0.0457509 sec)
have done 0000000120 cross links (processed 0000001573, took 0.0441151 sec)
have done 0000000044 cross links (processed 0000000477, took 0.043807 sec)
have done 0000000016 cross links (processed 0000000142, took 0.043983 sec)
have done 0000000003 cross links (processed 0000000041, took 0.043905 sec)
have done 0000000001 cross links (processed 0000000007, took 0.0436959 sec)
have done 0000000000 cross links (processed 0000000002, took 0.0436609 sec)
Local groups found.

group finding took = 5.48423 sec
Start finding nearest dm-particle (presently allocated=1756.12 MB)
still finding nearest... (presently allocated=1845.57 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.109863 sec
compiling local group data and catalogue took = 0.815825 sec

Total number of groups with at least 32 particles: 247284
Largest group has 1309136 particles.
Total number of particles in groups: 0073038227

group properties are now allocated.. (presently allocated=1269.53 MB)
computation of group properties took = 0.040663 sec
start global sorting of group catalogues number 4
LargestGroup = 1030.511547; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0530741 sec
Group catalogues globally sorted. took = 0.635034 sec
starting saving of group catalogue number 4
data//groups_004_z002p825
Group catalogues number 4 saved. took = 1.62655 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.688708 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.283067 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.684928 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0177524603 particles. (took 20.8199 sec)
ngb iteration 2: need to repeat for 0141199399 particles. (took 9.14851 sec)
ngb iteration 3: need to repeat for 0122631458 particles. (took 6.84493 sec)
ngb iteration 4: need to repeat for 0111394262 particles. (took 5.42014 sec)
ngb iteration 5: need to repeat for 0100070670 particles. (took 4.69616 sec)
ngb iteration 6: need to repeat for 0084802537 particles. (took 4.1648 sec)
ngb iteration 7: need to repeat for 0065721315 particles. (took 3.59379 sec)
ngb iteration 8: need to repeat for 0046398343 particles. (took 2.96267 sec)
ngb iteration 9: need to repeat for 0030256058 particles. (took 2.23896 sec)
ngb iteration 10: need to repeat for 0018585646 particles. (took 1.57659 sec)
ngb iteration 11: need to repeat for 0010945239 particles. (took 1.0319 sec)
ngb iteration 12: need to repeat for 0006253711 particles. (took 0.629243 sec)
ngb iteration 13: need to repeat for 0003489957 particles. (took 0.381107 sec)
ngb iteration 14: need to repeat for 0001839491 particles. (took 0.246225 sec)
ngb iteration 15: need to repeat for 0000837486 particles. (took 0.161143 sec)
ngb iteration 16: need to repeat for 0000365796 particles. (took 0.101237 sec)
ngb iteration 17: need to repeat for 0000160562 particles. (took 0.0730679 sec)
ngb iteration 18: need to repeat for 0000070992 particles. (took 0.0571039 sec)
ngb iteration 19: need to repeat for 0000031076 particles. (took 0.049994 sec)
ngb iteration 20: need to repeat for 0000013250 particles. (took 0.045748 sec)
ngb iteration 21: need to repeat for 0000005355 particles. (took 0.043432 sec)
ngb iteration 22: need to repeat for 0000002024 particles. (took 0.041574 sec)
ngb iteration 23: need to repeat for 0000000678 particles. (took 0.040796 sec)
ngb iteration 24: need to repeat for 0000000214 particles. (took 0.0406539 sec)
ngb iteration 25: need to repeat for 0000000071 particles. (took 0.040283 sec)
ngb iteration 26: need to repeat for 0000000017 particles. (took 0.0403559 sec)
ngb iteration 27: need to repeat for 0000000004 particles. (took 0.0403008 sec)
final operations ... 
density and smoothing length for species 1 took 64.8934 sec
Tree construction.
tree build took 0.693125 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.281516 sec
Tree construction.
tree build took 0.684171 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.281941 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.166164 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.92644 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.685159 sec
density() of species 1 took 1.90735e-06 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.183945 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.8883 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.162409 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.89066 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.869063 sec
saving densities took 2.39464 sec

Number of FOF halos treated with collective SubFind code = 0
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 247284 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 29280 - 29765854 

subfind_exchange()() took 1.20153 sec
processing of collective halos took 3.09944e-06 sec
sort of local particles()() took 1.61568 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 198.073 sec

Task 186: testing particles ...
Task 171: testing particles ...
Task 142: testing particles ...
Task 165: testing particles ...
Task 166: testing particles ...
Task 114: testing particles ...
Task 254: testing particles ...
Task 217: testing particles ...
Task 229: testing particles ...
Task 243: testing particles ...
Task 192: testing particles ...
Task 83: testing particles ...
Task 109: testing particles ...
Task 199: testing particles ...
Task 252: testing particles ...
Task 96: testing particles ...
Task 235: testing particles ...
Task 207: testing particles ...
Task 234: testing particles ...
Task 125: testing particles ...
Task 152: testing particles ...
Task 181: testing particles ...
Task 220: testing particles ...
Task 253: testing particles ...
Task 211: testing particles ...
Task 195: testing particles ...
Task 77: testing particles ...
Task 196: testing particles ...
Task 225: testing particles ...
Task 203: testing particles ...
Task 172: testing particles ...
Task 215: testing particles ...
Task 128: testing particles ...
Task 187: testing particles ...
Task 188: testing particles ...
Task 84: testing particles ...
Task 246: testing particles ...
Task 202: testing particles ...
Task 204: testing particles ...
Task 151: testing particles ...
Task 183: testing particles ...
Task 205: testing particles ...
Task 226: testing particles ...
Task 179: testing particles ...
Task 236: testing particles ...
Task 93: testing particles ...
Task 209: testing particles ...
Task 233: testing particles ...
Task 156: testing particles ...
Task 148: testing particles ...
Task 245: testing particles ...
Task 146: testing particles ...
Task 250: testing particles ...
Task 178: testing particles ...
Task 161: testing particles ...
Task 81: testing particles ...
Task 158: testing particles ...
Task 78: testing particles ...
Task 154: testing particles ...
Task 139: testing particles ...
Task 126: testing particles ...
Task 147: testing particles ...
Task 155: testing particles ...
Task 231: testing particles ...
Task 191: testing particles ...
Task 115: testing particles ...
Task 119: testing particles ...
Task 244: testing particles ...
Task 218: testing particles ...
Task 228: testing particles ...
Task 150: testing particles ...
Task 69: testing particles ...
Task 89: testing particles ...
Task 173: testing particles ...
Task 159: testing particles ...
Task 168: testing particles ...
Task 182: testing particles ...
Task 141: testing particles ...
Task 86: testing particles ...
Task 167: testing particles ...
Task 213: testing particles ...
Task 57: testing particles ...
Task 70: testing particles ...
Task 111: testing particles ...
Task 127: testing particles ...
Task 135: testing particles ...
Task 107: testing particles ...
Task 238: testing particles ...
Task 224: testing particles ...
Task 219: testing particles ...
Task 49: testing particles ...
Task 130: testing particles ...
Task 112: testing particles ...
Task 62: testing particles ...
Task 122: testing particles ...
Task 138: testing particles ...
Task 164: testing particles ...
Task 240: testing particles ...
Task 100: testing particles ...
Task 222: testing particles ...
Task 76: testing particles ...
Task 193: testing particles ...
Task 47: testing particles ...
Task 124: testing particles ...
Task 242: testing particles ...
Task 190: testing particles ...
Task 175: testing particles ...
Task 237: testing particles ...
Task 248: testing particles ...
Task 94: testing particles ...
Task 79: testing particles ...
Task 106: testing particles ...
Task 140: testing particles ...
Task 160: testing particles ...
Task 143: testing particles ...
Task 129: testing particles ...
Task 73: testing particles ...
Task 189: testing particles ...
Task 55: testing particles ...
Task 170: testing particles ...
Task 92: testing particles ...
Task 40: testing particles ...
Task 194: testing particles ...
Task 144: testing particles ...
Task 51: testing particles ...
Task 95: testing particles ...
Task 102: testing particles ...
Task 157: testing particles ...
Task 223: testing particles ...
Task 201: testing particles ...
Task 241: testing particles ...
Task 45: testing particles ...
Task 88: testing particles ...
Task 113: testing particles ...
Task 38: testing particles ...
Task 54: testing particles ...
Task 133: testing particles ...
Task 185: testing particles ...
Task 163: testing particles ...
Task 177: testing particles ...
Task 103: testing particles ...
Task 134: testing particles ...
Task 61: testing particles ...
Task 216: testing particles ...
Task 180: testing particles ...
Task 39: testing particles ...
Task 28: testing particles ...
Task 29: testing particles ...
Task 149: testing particles ...
Task 255: testing particles ...
Task 251: testing particles ...
Task 197: testing particles ...
Task 162: testing particles ...
Task 108: testing particles ...
Task 221: testing particles ...
Task 132: testing particles ...
Task 53: testing particles ...
Task 239: testing particles ...
Task 210: testing particles ...
Task 64: testing particles ...
Task 99: testing particles ...
Task 24: testing particles ...
Task 35: testing particles ...
Task 37: testing particles ...
Task 105: testing particles ...
Task 97: testing particles ...
Task 206: testing particles ...
Task 85: testing particles ...
Task 72: testing particles ...
Task 137: testing particles ...
Task 121: testing particles ...
Task 87: testing particles ...
Task 91: testing particles ...
Task 247: testing particles ...
Task 65: testing particles ...
Task 48: testing particles ...
Task 58: testing particles ...
Task 208: testing particles ...
Task 98: testing particles ...
Task 120: testing particles ...
Task 110: testing particles ...
Task 50: testing particles ...
Task 123: testing particles ...
Task 212: testing particles ...
Task 104: testing particles ...
Task 20: testing particles ...
Task 184: testing particles ...
Task 101: testing particles ...
Task 27: testing particles ...
Task 75: testing particles ...
Task 66: testing particles ...
Task 33: testing particles ...
Task 59: testing particles ...
Task 136: testing particles ...
Task 34: testing particles ...
Task 174: testing particles ...
Task 82: testing particles ...
Task 145: testing particles ...
Task 41: testing particles ...
Task 169: testing particles ...
Task 117: testing particles ...
Task 232: testing particles ...
Task 32: testing particles ...
Task 176: testing particles ...
Task 249: testing particles ...
Task 230: testing particles ...
Task 12: testing particles ...
Task 200: testing particles ...
Task 198: testing particles ...
Task 21: testing particles ...
Task 42: testing particles ...
Task 118: testing particles ...
Task 36: testing particles ...
Task 14: testing particles ...
Task 71: testing particles ...
Task 43: testing particles ...
Task 15: testing particles ...
Task 44: testing particles ...
Task 131: testing particles ...
Task 116: testing particles ...
Task 60: testing particles ...
Task 153: testing particles ...
Task 80: testing particles ...
Task 227: testing particles ...
Task 214: testing particles ...
Task 56: testing particles ...
Task 18: testing particles ...
Task 52: testing particles ...
Task 67: testing particles ...
Task 68: testing particles ...
Task 23: testing particles ...
Task 30: testing particles ...
Task 22: testing particles ...
Task 74: testing particles ...
Task 63: testing particles ...
Task 17: testing particles ...
Task 90: testing particles ...
Task 46: testing particles ...
Task 31: testing particles ...
Task 26: testing particles ...
Task 25: testing particles ...
Task 13: testing particles ...
Task 11: testing particles ...
Task 19: testing particles ...
Task 10: testing particles ...
Task 6: testing particles ...
Task 16: testing particles ...
Task 5: testing particles ...
Task 9: testing particles ...
Task 8: testing particles ...
Task 4: testing particles ...
Task 7: testing particles ...
Task 3: testing particles ...
Task 2: testing particles ...
Task 1: testing particles ...
unsorting of local particles()() took 1.44295 sec
Task 0: testing particles ...
subfind_exchange() (for return to original CPU)  took 1.31563 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1435.45 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1495.01 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1495.01 Mbyte (on task=0), Smallest = 1352.74 Mbyte, Average = 1360.11 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9214    1202.9354  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5154    1227.4509  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8591    1268.3100  fof_fof()/fof.c/337
   0 2975 0             Group      1.2244    1269.5343  fof_fof()/fof.c/380
   0 2976 0          SubGroup    165.9202    1435.4545  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    1447.7138  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    1476.3203  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    1477.2654  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    1478.1988  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    1479.1322  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    1480.0656  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    1481.0029  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    1481.9402  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    1495.0079  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=182849
After=204033
NTopleaves= 178529  NTopnodes=204033 (space for 244687)
gravity work-load balance=1.00036   memory-balance=1.00036   SPH work-load balance=0
iter=0 exchange of 0273216381 particles (ret=0)
domain decomposition done. (took 3.8186 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.86099 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000221948 particles. (took 0.0264659 sec)
SO iteration 2: need to repeat for 0000221948 particles. (took 0.0228281 sec)
SO iteration 3: need to repeat for 0000221948 particles. (took 0.0244992 sec)
SO iteration 4: need to repeat for 0000221948 particles. (took 0.025178 sec)
SO iteration 5: need to repeat for 0000221948 particles. (took 0.025295 sec)
SO iteration 6: need to repeat for 0000221948 particles. (took 0.0253041 sec)
SO iteration 7: need to repeat for 0000221948 particles. (took 0.025388 sec)
SO iteration 8: need to repeat for 0000221948 particles. (took 0.0252359 sec)
SO iteration 9: need to repeat for 0000221948 particles. (took 0.0253611 sec)
SO iteration 10: need to repeat for 0000221948 particles. (took 0.025193 sec)
SO iteration 11: need to repeat for 0000221948 particles. (took 0.0252459 sec)
SO iteration 12: need to repeat for 0000221948 particles. (took 0.0253561 sec)
SO iteration 13: need to repeat for 0000221948 particles. (took 0.025243 sec)
SO iteration 14: need to repeat for 0000221948 particles. (took 0.025286 sec)
SO iteration 15: need to repeat for 0000221738 particles. (took 0.025264 sec)
SO iteration 16: need to repeat for 0000003539 particles. (took 0.0253301 sec)
SO iteration 17: need to repeat for 0000000040 particles. (took 0.00197887 sec)
SO iteration 1: need to repeat for 0000221948 particles. (took 0.02613 sec)
SO iteration 2: need to repeat for 0000221948 particles. (took 0.0230739 sec)
SO iteration 3: need to repeat for 0000221948 particles. (took 0.0238121 sec)
SO iteration 4: need to repeat for 0000221948 particles. (took 0.0232811 sec)
SO iteration 5: need to repeat for 0000221948 particles. (took 0.023124 sec)
SO iteration 6: need to repeat for 0000221948 particles. (took 0.0230758 sec)
SO iteration 7: need to repeat for 0000221948 particles. (took 0.0230439 sec)
SO iteration 8: need to repeat for 0000221948 particles. (took 0.0230961 sec)
SO iteration 9: need to repeat for 0000221948 particles. (took 0.023211 sec)
SO iteration 10: need to repeat for 0000221948 particles. (took 0.0231102 sec)
SO iteration 11: need to repeat for 0000221948 particles. (took 0.0230319 sec)
SO iteration 12: need to repeat for 0000221948 particles. (took 0.023077 sec)
SO iteration 13: need to repeat for 0000221948 particles. (took 0.0230448 sec)
SO iteration 14: need to repeat for 0000221948 particles. (took 0.0230172 sec)
SO iteration 15: need to repeat for 0000221904 particles. (took 0.0230739 sec)
SO iteration 16: need to repeat for 0000146575 particles. (took 0.0230711 sec)
SO iteration 17: need to repeat for 0000002685 particles. (took 0.0170081 sec)
SO iteration 18: need to repeat for 0000000048 particles. (took 0.00151801 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000546932 sec)
SO iteration 1: need to repeat for 0000221948 particles. (took 0.026011 sec)
SO iteration 2: need to repeat for 0000221948 particles. (took 0.0225871 sec)
SO iteration 3: need to repeat for 0000221948 particles. (took 0.019691 sec)
SO iteration 4: need to repeat for 0000221948 particles. (took 0.0188739 sec)
SO iteration 5: need to repeat for 0000221948 particles. (took 0.0191689 sec)
SO iteration 6: need to repeat for 0000221948 particles. (took 0.0188651 sec)
SO iteration 7: need to repeat for 0000221948 particles. (took 0.0205529 sec)
SO iteration 8: need to repeat for 0000221948 particles. (took 0.018872 sec)
SO iteration 9: need to repeat for 0000221948 particles. (took 0.018729 sec)
SO iteration 10: need to repeat for 0000221948 particles. (took 0.018877 sec)
SO iteration 11: need to repeat for 0000221948 particles. (took 0.0188 sec)
SO iteration 12: need to repeat for 0000221948 particles. (took 0.018878 sec)
SO iteration 13: need to repeat for 0000221948 particles. (took 0.0188129 sec)
SO iteration 14: need to repeat for 0000221948 particles. (took 0.0188632 sec)
SO iteration 15: need to repeat for 0000221948 particles. (took 0.018851 sec)
SO iteration 16: need to repeat for 0000221944 particles. (took 0.0187972 sec)
SO iteration 17: need to repeat for 0000214650 particles. (took 0.0189459 sec)
SO iteration 18: need to repeat for 0000035366 particles. (took 0.0183282 sec)
SO iteration 19: need to repeat for 0000000332 particles. (took 0.00714993 sec)
SO iteration 20: need to repeat for 0000000013 particles. (took 0.000689983 sec)
SO iteration 1: need to repeat for 0000221948 particles. (took 0.0260391 sec)
SO iteration 2: need to repeat for 0000221948 particles. (took 0.024596 sec)
SO iteration 3: need to repeat for 0000221948 particles. (took 0.0252459 sec)
SO iteration 4: need to repeat for 0000221948 particles. (took 0.0254688 sec)
SO iteration 5: need to repeat for 0000221948 particles. (took 0.0255311 sec)
SO iteration 6: need to repeat for 0000221948 particles. (took 0.025527 sec)
SO iteration 7: need to repeat for 0000221948 particles. (took 0.0255439 sec)
SO iteration 8: need to repeat for 0000221948 particles. (took 0.027389 sec)
SO iteration 9: need to repeat for 0000221948 particles. (took 0.0255308 sec)
SO iteration 10: need to repeat for 0000221948 particles. (took 0.0255959 sec)
SO iteration 11: need to repeat for 0000221948 particles. (took 0.0255408 sec)
SO iteration 12: need to repeat for 0000221948 particles. (took 0.0255339 sec)
SO iteration 13: need to repeat for 0000221948 particles. (took 0.0255868 sec)
SO iteration 14: need to repeat for 0000221948 particles. (took 0.025537 sec)
SO iteration 15: need to repeat for 0000221681 particles. (took 0.025598 sec)
SO iteration 16: need to repeat for 0000002057 particles. (took 0.0255101 sec)
SO iteration 17: need to repeat for 0000000030 particles. (took 0.00142002 sec)
SO iteration 1: need to repeat for 0000221948 particles. (took 0.0261509 sec)
SO iteration 2: need to repeat for 0000221948 particles. (took 0.022893 sec)
SO iteration 3: need to repeat for 0000221948 particles. (took 0.0245481 sec)
SO iteration 4: need to repeat for 0000221948 particles. (took 0.025259 sec)
SO iteration 5: need to repeat for 0000221948 particles. (took 0.0252202 sec)
SO iteration 6: need to repeat for 0000221948 particles. (took 0.025784 sec)
SO iteration 7: need to repeat for 0000221948 particles. (took 0.0252681 sec)
SO iteration 8: need to repeat for 0000221948 particles. (took 0.0253811 sec)
SO iteration 9: need to repeat for 0000221948 particles. (took 0.0252681 sec)
SO iteration 10: need to repeat for 0000221948 particles. (took 0.0251949 sec)
SO iteration 11: need to repeat for 0000221948 particles. (took 0.0253329 sec)
SO iteration 12: need to repeat for 0000221948 particles. (took 0.0258441 sec)
SO iteration 13: need to repeat for 0000221948 particles. (took 0.0251448 sec)
SO iteration 14: need to repeat for 0000221948 particles. (took 0.0251291 sec)
SO iteration 15: need to repeat for 0000221758 particles. (took 0.0252001 sec)
SO iteration 16: need to repeat for 0000004383 particles. (took 0.025497 sec)
SO iteration 17: need to repeat for 0000000052 particles. (took 0.00228786 sec)
SO iteration 18: need to repeat for 0000000002 particles. (took 0.000533104 sec)
SO iteration 1: need to repeat for 0000221948 particles. (took 0.0261779 sec)
SO iteration 2: need to repeat for 0000221948 particles. (took 0.0231929 sec)
SO iteration 3: need to repeat for 0000221948 particles. (took 0.023618 sec)
SO iteration 4: need to repeat for 0000221948 particles. (took 0.023246 sec)
SO iteration 5: need to repeat for 0000221948 particles. (took 0.023308 sec)
SO iteration 6: need to repeat for 0000221948 particles. (took 0.022989 sec)
SO iteration 7: need to repeat for 0000221948 particles. (took 0.0229571 sec)
SO iteration 8: need to repeat for 0000221948 particles. (took 0.023005 sec)
SO iteration 9: need to repeat for 0000221948 particles. (took 0.0230591 sec)
SO iteration 10: need to repeat for 0000221948 particles. (took 0.024843 sec)
SO iteration 11: need to repeat for 0000221948 particles. (took 0.0250471 sec)
SO iteration 12: need to repeat for 0000221948 particles. (took 0.025279 sec)
SO iteration 13: need to repeat for 0000221948 particles. (took 0.0250959 sec)
SO iteration 14: need to repeat for 0000221948 particles. (took 0.023772 sec)
SO iteration 15: need to repeat for 0000221907 particles. (took 0.024245 sec)
SO iteration 16: need to repeat for 0000162626 particles. (took 0.023705 sec)
SO iteration 17: need to repeat for 0000003093 particles. (took 0.0183909 sec)
SO iteration 18: need to repeat for 0000000057 particles. (took 0.00174093 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000592947 sec)
SO iteration 1: need to repeat for 0000221948 particles. (took 0.028681 sec)
SO iteration 2: need to repeat for 0000221948 particles. (took 0.024771 sec)
SO iteration 3: need to repeat for 0000221948 particles. (took 0.0200849 sec)
SO iteration 4: need to repeat for 0000221948 particles. (took 0.0195358 sec)
SO iteration 5: need to repeat for 0000221948 particles. (took 0.0203378 sec)
SO iteration 6: need to repeat for 0000221948 particles. (took 0.019244 sec)
SO iteration 7: need to repeat for 0000221948 particles. (took 0.020113 sec)
SO iteration 8: need to repeat for 0000221948 particles. (took 0.01967 sec)
SO iteration 9: need to repeat for 0000221948 particles. (took 0.0200751 sec)
SO iteration 10: need to repeat for 0000221948 particles. (took 0.019815 sec)
SO iteration 11: need to repeat for 0000221948 particles. (took 0.0195072 sec)
SO iteration 12: need to repeat for 0000221948 particles. (took 0.0204251 sec)
SO iteration 13: need to repeat for 0000221948 particles. (took 0.020066 sec)
SO iteration 14: need to repeat for 0000221948 particles. (took 0.0193331 sec)
SO iteration 15: need to repeat for 0000221948 particles. (took 0.0189269 sec)
SO iteration 16: need to repeat for 0000221944 particles. (took 0.0187111 sec)
SO iteration 17: need to repeat for 0000217272 particles. (took 0.018681 sec)
SO iteration 18: need to repeat for 0000040598 particles. (took 0.0184472 sec)
SO iteration 19: need to repeat for 0000000393 particles. (took 0.00788283 sec)
SO iteration 20: need to repeat for 0000000014 particles. (took 0.000705957 sec)
determining spherical overdensity masses took 2.76215 sec
finding spherical overdensity particles took 0.657556 sec
determining contamination of halos took 0.270959 sec
Global sort of Groups took 0.166117 sec
Global sort of SubGroups took 0.593804 sec
Global sort of IDs took 0.354084 sec
Writing block 0 (GLEN), n=966, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3864d
Writing block 1 (GOFF), n=966, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3864d
Writing block 2 (MTOT), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 3 (GPOS), n=966, ptype=0, dtype=1, ndim=3, bpb=4 bytes=11592d
Writing block 4 (MMEA), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 5 (RMEA), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 6 (MCRI), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 7 (RCRI), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 8 (MTOP), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 9 (RTOP), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 17 (NCON), n=966, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3864d
Writing block 18 (MCON), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 22 (NSUB), n=966, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3864d
Writing block 23 (FSUB), n=966, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3864d
Writing block 24 (SLEN), n=1560, ptype=1, dtype=0, ndim=1, bpb=4 bytes=6240d
Writing block 25 (SOFF), n=1560, ptype=1, dtype=0, ndim=1, bpb=4 bytes=6240d
Writing block 27 (MSUB), n=1560, ptype=1, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 28 (SPOS), n=1560, ptype=1, dtype=1, ndim=3, bpb=4 bytes=18720d
Writing block 29 (SVEL), n=1560, ptype=1, dtype=1, ndim=3, bpb=4 bytes=18720d
Writing block 30 (SCM ), n=1560, ptype=1, dtype=1, ndim=3, bpb=4 bytes=18720d
Writing block 33 (VMAX), n=1560, ptype=1, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 34 (RMAX), n=1560, ptype=1, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 35 (RHMS), n=1560, ptype=1, dtype=1, ndim=6, bpb=4 bytes=37440d
Writing block 36 (MTRH), n=1560, ptype=1, dtype=1, ndim=6, bpb=4 bytes=37440d
Writing block 37 (MBID), n=1560, ptype=1, dtype=2, ndim=1, bpb=8 bytes=12480d
Writing block 38 (GRNR), n=1560, ptype=1, dtype=0, ndim=1, bpb=4 bytes=6240d
Writing block 39 (SUBN), n=1560, ptype=1, dtype=0, ndim=1, bpb=4 bytes=6240d
Writing block 40 (SMST), n=1560, ptype=1, dtype=1, ndim=6, bpb=4 bytes=37440d
Writing block 53 (PID ), n=298476, ptype=2, dtype=2, ndim=1, bpb=8 bytes=2387808d
Writing block 54 (SLEN), n=1560, ptype=1, dtype=0, ndim=6, bpb=4 bytes=37440d
Writing block 55 (STEN), n=1560, ptype=1, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 56 (SKEN), n=1560, ptype=1, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 57 (SUEN), n=1560, ptype=1, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 58 (SUIT), n=1560, ptype=1, dtype=1, ndim=9, bpb=4 bytes=56160d
Writing block 59 (BHMA), n=1560, ptype=1, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 60 (BHMD), n=1560, ptype=1, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 61 (SVD ), n=1560, ptype=1, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 62 (SVDH), n=1560, ptype=1, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 63 (HMPR), n=1560, ptype=1, dtype=1, ndim=6, bpb=4 bytes=37440d
Writing block 64 (SSFR), n=1560, ptype=1, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 65 (SSA ), n=1560, ptype=1, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 66 (SSBZ), n=1560, ptype=1, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 67 (SSIM), n=1560, ptype=1, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 68 (SSPI), n=1560, ptype=4, dtype=1, ndim=3, bpb=4 bytes=18720d
Writing block 69 (GSPI), n=1560, ptype=1, dtype=1, ndim=3, bpb=4 bytes=18720d
Writing block 70 (FSPI), n=1560, ptype=5, dtype=1, ndim=3, bpb=4 bytes=18720d
Writing block 71 (SFM ), n=1560, ptype=5, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 72 (SFMT), n=1560, ptype=5, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 73 (SFME), n=1560, ptype=5, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 74 (SFAE), n=1560, ptype=5, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 75 (SFKE), n=1560, ptype=5, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 76 (SFTE), n=1560, ptype=5, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 77 (SMWP), n=1560, ptype=5, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 78 (SMM ), n=1560, ptype=5, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 79 (SMMS), n=1560, ptype=5, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 80 (SFZ ), n=1560, ptype=5, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 81 (SFZS), n=1560, ptype=5, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 82 (SSIA), n=1560, ptype=5, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 83 (SIAS), n=1560, ptype=5, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 84 (SMET), n=1560, ptype=5, dtype=1, ndim=9, bpb=4 bytes=56160d
Writing block 85 (SMTS), n=1560, ptype=5, dtype=1, ndim=9, bpb=4 bytes=56160d
Writing block 86 (MF1 ), n=1560, ptype=5, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 87 (MeF1), n=1560, ptype=5, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 88 (MF  ), n=1560, ptype=5, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 89 (MeF2), n=1560, ptype=5, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 90 (MFA ), n=1560, ptype=5, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 91 (MeFA), n=1560, ptype=5, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 92 (NSPI), n=1560, ptype=6, dtype=1, ndim=3, bpb=4 bytes=18720d
Writing block 93 (NFM ), n=1560, ptype=6, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 94 (NFMT), n=1560, ptype=6, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 95 (NFME), n=1560, ptype=6, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 96 (NFAE), n=1560, ptype=6, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 97 (NFKE), n=1560, ptype=6, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 98 (NFTE), n=1560, ptype=6, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 99 (SMWP), n=1560, ptype=6, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 100 (SMM ), n=1560, ptype=6, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 101 (SMMS), n=1560, ptype=6, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 102 (SSIA), n=1560, ptype=6, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 103 (SIAS), n=1560, ptype=6, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 104 (SMET), n=1560, ptype=6, dtype=1, ndim=9, bpb=4 bytes=56160d
Writing block 105 (SMTS), n=1560, ptype=6, dtype=1, ndim=9, bpb=4 bytes=56160d
Writing block 106 (MF1 ), n=1560, ptype=6, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 107 (MeF1), n=1560, ptype=6, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 108 (MF2 ), n=1560, ptype=6, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 109 (MeF2), n=1560, ptype=6, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 110 (MFA ), n=1560, ptype=6, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 111 (MeFA), n=1560, ptype=6, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 112 (SM  ), n=1560, ptype=4, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 113 (SFKE), n=1560, ptype=4, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 114 (SFAE), n=1560, ptype=4, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 115 (SMWP), n=1560, ptype=4, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 116 (SMM ), n=1560, ptype=4, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 117 (SMMS), n=1560, ptype=4, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 118 (SSIA), n=1560, ptype=4, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 119 (SIAS), n=1560, ptype=4, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 120 (SMET), n=1560, ptype=4, dtype=1, ndim=9, bpb=4 bytes=56160d
Writing block 121 (SMTS), n=1560, ptype=4, dtype=1, ndim=9, bpb=4 bytes=56160d
Writing block 122 (MF1 ), n=1560, ptype=4, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 123 (MeF1), n=1560, ptype=4, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 124 (MF2 ), n=1560, ptype=4, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 125 (MeF2), n=1560, ptype=4, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 126 (MFA ), n=1560, ptype=4, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 127 (MeFA), n=1560, ptype=4, dtype=1, ndim=1, bpb=4 bytes=6240d
Writing block 128 (MMe5), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 129 (RMe5), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 130 (MCr5), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 131 (RCr5), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 132 (MMe2), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 133 (RMe2), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 134 (MCr2), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 135 (RCr2), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 136 (MAPT), n=1560, ptype=7, dtype=1, ndim=60, bpb=4 bytes=374400d
Writing block 137 (SAPT), n=1560, ptype=8, dtype=1, ndim=10, bpb=4 bytes=62400d
Writing block 138 (VAPT), n=1560, ptype=9, dtype=1, ndim=10, bpb=4 bytes=62400d
Writing block 139 (BEGY), n=298476, ptype=2, dtype=1, ndim=1, bpb=4 bytes=1193904d
Subgroup catalogues saved. took = 5.82174 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 7.223921e-01
 eagle_ph_key_ort: type= 2 timed by volker 3.884506e-02
 eagle_ph_key_ort: type= 3 timed by volker 8.411884e-03
 eagle_ph_key_ort: type= 4 timed by volker 8.411884e-03
 eagle_ph_key_ort: type= 5 timed by volker 8.411884e-03
 eagle_ph_key_ort: timing parallel sort = 8.267100e-01
 eagle_fetch_elements: we are using 2088778361 bytes of memory, FreeBytes= 2610972952

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 1459.98 Mbyte (on task=0), Smallest = 1317.71 Mbyte, Average = 1325.08 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9214    1202.9354  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5154    1227.4509  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8591    1268.3100  fof_fof()/fof.c/337
   0 2975 0             Group      1.2244    1269.5343  fof_fof()/fof.c/380
   0 2976 0          SubGroup    165.9202    1435.4545  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5276    1459.9822  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 2677673 number of bytes = 856855360

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3451.98 Mbyte (on task=0), Smallest = 3309.15 Mbyte, Average = 3316.98 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9214    1202.9354  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5154    1227.4509  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8591    1268.3100  fof_fof()/fof.c/337
   0 2975 0             Group      1.2244    1269.5343  fof_fof()/fof.c/380
   0 2976 0          SubGroup    165.9202    1435.4545  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5276    1459.9822  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx     10.2145    1470.1967  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv     10.2145    1480.4112  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send     10.2145    1490.6257  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    817.1609    2307.7867  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    817.1609    3124.9476  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    327.0349    3451.9825  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.443092e+00
 eagle_fetch_elements: we are using 2088778361 bytes of memory, FreeBytes= 2610972952
 eagle_fetch_elements: max_bytes= 504, max_elements= 2047821 number of bytes = 1032101784
 eagle_ph_key_ort: timing parallel SphP exchange = 2.775908e-03
 eagle_fetch_elements: we are using 2088778361 bytes of memory, FreeBytes= 2610972952
 eagle_fetch_elements: max_bytes= 384, max_elements= 2677920 number of bytes = 1028321280
 eagle_ph_key_ort: timing parallel MetP exchange = 4.599094e-04
 eagle_fetch_elements: we are using 2088778361 bytes of memory, FreeBytes= 2610972952
 eagle_fetch_elements: max_bytes= 256, max_elements= 3986218 number of bytes = 1020471808
 eagle_ph_key_ort: timing parallel BHP exchange = 4.389286e-04
Sorting particle-data by peano-hilbert key took = 3.65239 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 2088778361 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 2677673 number of bytes= 856855360
 eagle_ph_restore: timing parallel P exchange = 2.459967e+00
 eagle_send_elements: we are using 2088778361 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 2047821 number of bytes= 1032101784
 eagle_ph_restore: timing parallel SphP exchange = 1.070023e-03
 eagle_send_elements: we are using 2088778361 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2677920 number of bytes= 1028321280
 eagle_ph_restore: timing parallel MetP exchange = 6.167889e-04
 eagle_send_elements: we are using 2088778361 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 3986218 number of bytes= 1020471808
 eagle_ph_restore: timing parallel BHP exchange = 7.209778e-04
Restoring original order after ph key sorting took = 2.4792 sec

finished writing particle file...

Finished with SUBFIND.  (total time=330.849 sec)

Finished computing FoF groups.  (presently allocated=1202.94 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=176705
After=200065
NTopleaves= 175057  NTopnodes=200065 (space for 244687)
gravity work-load balance=1.0005   memory-balance=1.0005   SPH work-load balance=0
iter=0 exchange of 0273261693 particles (ret=0)
domain decomposition done. (took 3.78457 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.04263 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
task 16: endrun called with an error level of 124


task 16: endrun called with an error level of 124


task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 48: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
task 48: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
task 128: endrun called with an error level of 124


task 128: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 160: endrun called with an error level of 124


task 160: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
task 176: endrun called with an error level of 124


task 176: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
task 192: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
task 192: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
Finished FOF, total time doing fof/subfind = 349.954 s
task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12)  An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
task 0: endrun called with an error level of 124


    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.66 Mb (on task=112), Smallest =   62646.06 Mb (on task=0), Average =   62686.85 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1886.00 Mb (on task=0), Smallest =    1798.41 Mb (on task=112), Average =    1845.23 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16337.50 Mb (on task=112), Average =   16351.15 Mb
AllocMem:	 Largest =    1886.00 Mb (on task=0), Smallest =    1798.41 Mb (on task=112), Average =    1845.23 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_005_z002p348/snap_005_z002p348.0.hdf5' on task=0 (contains 17140139 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  17014605  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     19602  (tot=     0000303834) masstab=0
Type 3 (bulge):   105932  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.303258

Setting next time for line of sight file to Time_next= 0.300005

Setting next time for snipshot file to Time_next= 0.307731

Setting next time for fof output to Time_next= 0.307731
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=3.96455 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
Before=178137
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=178137
After=198665
NTopleaves= 173832  NTopnodes=198665 (space for 244687)
gravity work-load balance=1.00051   memory-balance=1.00051   SPH work-load balance=0
iter=0 exchange of 0273163334 particles (ret=0)
domain decomposition done. (took 9.98429 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.10672 MByte in top-level domain structure

Allocated 503.248 MByte for BH-tree, and 0.663116 Mbyte for top-leaves.  (presently allocted 1706.78 MB)

Begin Ngb-tree construction.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1752.96 Mbyte (on task=203), Smallest = 1752.87 Mbyte, Average = 1752.94 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 203 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
 203 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
 203 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
 203 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
 203 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
 203 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
 203 2972 0          TopNodes      9.8520    1202.8671  domain_allocate()/domain.c/570
 203 2973 0   DomainNodeIndex      0.6631    1203.5302  force_treeallocate()/forcetree.c/4800
 203 2974 0        Nodes_base    258.4823    1462.0125  force_treeallocate()/forcetree.c/4803
 203 2975 0     Extnodes_base    215.4019    1677.4144  force_treeallocate()/forcetree.c/4811
 203 2976 0          Nextnode     15.0611    1692.4754  force_treeallocate()/forcetree.c/4820
 203 2977 0            Father     14.3032    1706.7787  force_treeallocate()/forcetree.c/4827
 203 2978 0           Ngblist      4.0887    1710.8674  density()/density.c/690
 203 2979 0              Left      8.1775    1719.0448  density()/density.c/692
 203 2980 0             Right      8.1775    1727.2223  density()/density.c/693
 203 2981 0    DataIndexTable      7.0175    1734.2398  density()/density.c/738
 203 2982 0      DataNodeList     18.7134    1752.9533  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_2.316.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_2.479.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.78 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=179849
After=201609
NTopleaves= 176408  NTopnodes=201609 (space for 244687)
gravity work-load balance=1.00047   memory-balance=1.00047   SPH work-load balance=0
iter=0 exchange of 0273355385 particles (ret=0)
domain decomposition done. (took 3.7684 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.97195 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1203.01 MB)
Tree construction.

Start linking particles (presently allocated=1756.48 MB)
links on local processor done (took 2.96272 sec).
Marked=0028784332 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1858.08 MB) 
have done 0000813527 cross links (processed 0028784332, took 0.775254 sec)
have done 0000281529 cross links (processed 0015989410, took 0.586516 sec)
have done 0000158765 cross links (processed 0011161120, took 0.515718 sec)
have done 0000081541 cross links (processed 0005771301, took 0.369224 sec)
have done 0000041449 cross links (processed 0002997978, took 0.39366 sec)
have done 0000019926 cross links (processed 0001334340, took 0.249096 sec)
have done 0000007992 cross links (processed 0000402212, took 0.152167 sec)
have done 0000003658 cross links (processed 0000180029, took 0.088249 sec)
have done 0000001752 cross links (processed 0000111123, took 0.0884042 sec)
have done 0000000685 cross links (processed 0000020795, took 0.050483 sec)
have done 0000000367 cross links (processed 0000015009, took 0.063791 sec)
have done 0000000104 cross links (processed 0000005510, took 0.0587959 sec)
have done 0000000030 cross links (processed 0000000394, took 0.0438812 sec)
have done 0000000010 cross links (processed 0000000137, took 0.043746 sec)
have done 0000000002 cross links (processed 0000000031, took 0.0437169 sec)
have done 0000000001 cross links (processed 0000000007, took 0.0438101 sec)
have done 0000000000 cross links (processed 0000000003, took 0.0437012 sec)
Local groups found.

group finding took = 6.65557 sec
Start finding nearest dm-particle (presently allocated=1756.48 MB)
still finding nearest... (presently allocated=1845.93 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.110069 sec
compiling local group data and catalogue took = 0.772486 sec

Total number of groups with at least 32 particles: 247120
Largest group has 2412546 particles.
Total number of particles in groups: 0083498682

group properties are now allocated.. (presently allocated=1269.73 MB)
computation of group properties took = 0.044986 sec
start global sorting of group catalogues number 5
LargestGroup = 1899.081921; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0531261 sec
Group catalogues globally sorted. took = 0.652796 sec
starting saving of group catalogue number 5
data//groups_005_z002p348
Group catalogues number 5 saved. took = 1.60615 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.711609 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.27025 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.705935 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0178560259 particles. (took 20.6785 sec)
ngb iteration 2: need to repeat for 0141741682 particles. (took 8.98878 sec)
ngb iteration 3: need to repeat for 0122697303 particles. (took 6.70444 sec)
ngb iteration 4: need to repeat for 0111309645 particles. (took 5.3874 sec)
ngb iteration 5: need to repeat for 0100006096 particles. (took 4.72371 sec)
ngb iteration 6: need to repeat for 0084836924 particles. (took 4.20366 sec)
ngb iteration 7: need to repeat for 0065898521 particles. (took 3.64344 sec)
ngb iteration 8: need to repeat for 0046643823 particles. (took 3.01145 sec)
ngb iteration 9: need to repeat for 0030512605 particles. (took 2.2648 sec)
ngb iteration 10: need to repeat for 0018805671 particles. (took 1.60955 sec)
ngb iteration 11: need to repeat for 0011120231 particles. (took 1.0461 sec)
ngb iteration 12: need to repeat for 0006385528 particles. (took 0.642317 sec)
ngb iteration 13: need to repeat for 0003589774 particles. (took 0.388679 sec)
ngb iteration 14: need to repeat for 0001910323 particles. (took 0.248684 sec)
ngb iteration 15: need to repeat for 0000883436 particles. (took 0.163816 sec)
ngb iteration 16: need to repeat for 0000393763 particles. (took 0.10452 sec)
ngb iteration 17: need to repeat for 0000175552 particles. (took 0.073256 sec)
ngb iteration 18: need to repeat for 0000078809 particles. (took 0.057987 sec)
ngb iteration 19: need to repeat for 0000035247 particles. (took 0.0503621 sec)
ngb iteration 20: need to repeat for 0000015389 particles. (took 0.045938 sec)
ngb iteration 21: need to repeat for 0000006431 particles. (took 0.043437 sec)
ngb iteration 22: need to repeat for 0000002527 particles. (took 0.0419219 sec)
ngb iteration 23: need to repeat for 0000000890 particles. (took 0.0410199 sec)
ngb iteration 24: need to repeat for 0000000258 particles. (took 0.040822 sec)
ngb iteration 25: need to repeat for 0000000065 particles. (took 0.040257 sec)
ngb iteration 26: need to repeat for 0000000014 particles. (took 0.0403452 sec)
ngb iteration 27: need to repeat for 0000000002 particles. (took 0.0405021 sec)
final operations ... 
density and smoothing length for species 1 took 64.6897 sec
Tree construction.
tree build took 0.705215 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.270025 sec
Tree construction.
tree build took 0.700445 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.271055 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.174645 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.89736 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.700613 sec
density() of species 1 took 1.19209e-06 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.174195 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.89351 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.175641 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.89268 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.918979 sec
saving densities took 1.64924 sec

Number of FOF halos treated with collective SubFind code = 0
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 247120 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 27200 - 38941017 

subfind_exchange()() took 1.42411 sec
processing of collective halos took 1.90735e-06 sec
sort of local particles()() took 2.3605 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 542.457 sec

Task 180: testing particles ...
Task 241: testing particles ...
Task 254: testing particles ...
Task 231: testing particles ...
Task 97: testing particles ...
Task 172: testing particles ...
Task 90: testing particles ...
Task 124: testing particles ...
Task 216: testing particles ...
Task 222: testing particles ...
Task 246: testing particles ...
Task 234: testing particles ...
Task 253: testing particles ...
Task 249: testing particles ...
Task 204: testing particles ...
Task 208: testing particles ...
Task 147: testing particles ...
Task 134: testing particles ...
Task 166: testing particles ...
Task 174: testing particles ...
Task 243: testing particles ...
Task 112: testing particles ...
Task 122: testing particles ...
Task 130: testing particles ...
Task 181: testing particles ...
Task 132: testing particles ...
Task 139: testing particles ...
Task 87: testing particles ...
Task 224: testing particles ...
Task 251: testing particles ...
Task 233: testing particles ...
Task 189: testing particles ...
Task 219: testing particles ...
Task 127: testing particles ...
Task 156: testing particles ...
Task 73: testing particles ...
Task 105: testing particles ...
Task 214: testing particles ...
Task 168: testing particles ...
Task 131: testing particles ...
Task 223: testing particles ...
Task 169: testing particles ...
Task 154: testing particles ...
Task 151: testing particles ...
Task 197: testing particles ...
Task 102: testing particles ...
Task 250: testing particles ...
Task 238: testing particles ...
Task 62: testing particles ...
Task 184: testing particles ...
Task 191: testing particles ...
Task 198: testing particles ...
Task 239: testing particles ...
Task 43: testing particles ...
Task 210: testing particles ...
Task 114: testing particles ...
Task 226: testing particles ...
Task 82: testing particles ...
Task 190: testing particles ...
Task 182: testing particles ...
Task 110: testing particles ...
Task 235: testing particles ...
Task 211: testing particles ...
Task 167: testing particles ...
Task 200: testing particles ...
Task 193: testing particles ...
Task 171: testing particles ...
Task 153: testing particles ...
Task 194: testing particles ...
Task 109: testing particles ...
Task 149: testing particles ...
Task 140: testing particles ...
Task 213: testing particles ...
Task 165: testing particles ...
Task 84: testing particles ...
Task 175: testing particles ...
Task 96: testing particles ...
Task 108: testing particles ...
Task 209: testing particles ...
Task 221: testing particles ...
Task 237: testing particles ...
Task 72: testing particles ...
Task 115: testing particles ...
Task 227: testing particles ...
Task 242: testing particles ...
Task 212: testing particles ...
Task 162: testing particles ...
Task 92: testing particles ...
Task 76: testing particles ...
Task 41: testing particles ...
Task 155: testing particles ...
Task 207: testing particles ...
Task 206: testing particles ...
Task 185: testing particles ...
Task 113: testing particles ...
Task 236: testing particles ...
Task 245: testing particles ...
Task 158: testing particles ...
Task 135: testing particles ...
Task 137: testing particles ...
Task 201: testing particles ...
Task 202: testing particles ...
Task 69: testing particles ...
Task 148: testing particles ...
Task 81: testing particles ...
Task 49: testing particles ...
Task 203: testing particles ...
Task 126: testing particles ...
Task 188: testing particles ...
Task 225: testing particles ...
Task 107: testing particles ...
Task 63: testing particles ...
Task 163: testing particles ...
Task 145: testing particles ...
Task 93: testing particles ...
Task 157: testing particles ...
Task 111: testing particles ...
Task 179: testing particles ...
Task 159: testing particles ...
Task 192: testing particles ...
Task 230: testing particles ...
Task 51: testing particles ...
Task 215: testing particles ...
Task 205: testing particles ...
Task 228: testing particles ...
Task 247: testing particles ...
Task 187: testing particles ...
Task 229: testing particles ...
Task 217: testing particles ...
Task 196: testing particles ...
Task 161: testing particles ...
Task 77: testing particles ...
Task 248: testing particles ...
Task 83: testing particles ...
Task 143: testing particles ...
Task 39: testing particles ...
Task 88: testing particles ...
Task 123: testing particles ...
Task 141: testing particles ...
Task 186: testing particles ...
Task 65: testing particles ...
Task 30: testing particles ...
Task 48: testing particles ...
Task 183: testing particles ...
Task 91: testing particles ...
Task 125: testing particles ...
Task 136: testing particles ...
Task 95: testing particles ...
Task 79: testing particles ...
Task 68: testing particles ...
Task 70: testing particles ...
Task 178: testing particles ...
Task 128: testing particles ...
Task 177: testing particles ...
Task 103: testing particles ...
Task 45: testing particles ...
Task 119: testing particles ...
Task 60: testing particles ...
Task 120: testing particles ...
Task 232: testing particles ...
Task 61: testing particles ...
Task 118: testing particles ...
Task 199: testing particles ...
Task 36: testing particles ...
Task 218: testing particles ...
Task 152: testing particles ...
Task 106: testing particles ...
Task 255: testing particles ...
Task 146: testing particles ...
Task 220: testing particles ...
Task 133: testing particles ...
Task 100: testing particles ...
Task 35: testing particles ...
Task 74: testing particles ...
Task 240: testing particles ...
Task 98: testing particles ...
Task 54: testing particles ...
Task 176: testing particles ...
Task 37: testing particles ...
Task 252: testing particles ...
Task 58: testing particles ...
Task 71: testing particles ...
Task 50: testing particles ...
Task 94: testing particles ...
Task 31: testing particles ...
Task 121: testing particles ...
Task 67: testing particles ...
Task 160: testing particles ...
Task 78: testing particles ...
Task 104: testing particles ...
Task 117: testing particles ...
Task 144: testing particles ...
Task 75: testing particles ...
Task 22: testing particles ...
Task 34: testing particles ...
Task 64: testing particles ...
Task 150: testing particles ...
Task 116: testing particles ...
Task 56: testing particles ...
Task 101: testing particles ...
Task 142: testing particles ...
Task 173: testing particles ...
Task 195: testing particles ...
Task 138: testing particles ...
Task 28: testing particles ...
Task 170: testing particles ...
Task 80: testing particles ...
Task 244: testing particles ...
Task 25: testing particles ...
Task 46: testing particles ...
Task 42: testing particles ...
Task 52: testing particles ...
Task 27: testing particles ...
Task 86: testing particles ...
Task 164: testing particles ...
Task 18: testing particles ...
Task 53: testing particles ...
Task 89: testing particles ...
Task 59: testing particles ...
Task 99: testing particles ...
Task 32: testing particles ...
Task 66: testing particles ...
Task 129: testing particles ...
Task 85: testing particles ...
Task 26: testing particles ...
Task 23: testing particles ...
Task 38: testing particles ...
Task 57: testing particles ...
Task 47: testing particles ...
Task 40: testing particles ...
Task 14: testing particles ...
Task 21: testing particles ...
Task 29: testing particles ...
Task 15: testing particles ...
Task 33: testing particles ...
Task 44: testing particles ...
Task 55: testing particles ...
Task 13: testing particles ...
Task 16: testing particles ...
Task 11: testing particles ...
Task 10: testing particles ...
Task 19: testing particles ...
Task 24: testing particles ...
Task 12: testing particles ...
Task 20: testing particles ...
Task 17: testing particles ...
Task 7: testing particles ...
Task 6: testing particles ...
Task 9: testing particles ...
Task 5: testing particles ...
Task 8: testing particles ...
Task 4: testing particles ...
Task 3: testing particles ...
Task 2: testing particles ...
Task 1: testing particles ...
unsorting of local particles()() took 2.03395 sec
Task 0: testing particles ...
subfind_exchange() (for return to original CPU)  took 1.68398 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1557.56 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1617.12 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1617.12 Mbyte (on task=0), Smallest = 1354.63 Mbyte, Average = 1364.64 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9980    1203.0120  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5206    1227.5326  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8677    1268.4003  fof_fof()/fof.c/337
   0 2975 0             Group      1.3260    1269.7263  fof_fof()/fof.c/380
   0 2976 0          SubGroup    287.8376    1557.5639  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    1569.8232  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    1598.4296  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    1599.3747  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    1600.3081  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    1601.2415  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    1602.1749  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    1603.1123  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    1604.0496  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    1617.1173  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=184841
After=205497
NTopleaves= 179810  NTopnodes=205497 (space for 244687)
gravity work-load balance=1.00036   memory-balance=1.00036   SPH work-load balance=0
iter=0 exchange of 0273369127 particles (ret=0)
domain decomposition done. (took 4.11017 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.79398 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000218889 particles. (took 0.0348639 sec)
SO iteration 2: need to repeat for 0000218889 particles. (took 0.0239511 sec)
SO iteration 3: need to repeat for 0000218889 particles. (took 0.0254388 sec)
SO iteration 4: need to repeat for 0000218889 particles. (took 0.0269551 sec)
SO iteration 5: need to repeat for 0000218889 particles. (took 0.026684 sec)
SO iteration 6: need to repeat for 0000218889 particles. (took 0.026031 sec)
SO iteration 7: need to repeat for 0000218889 particles. (took 0.027673 sec)
SO iteration 8: need to repeat for 0000218889 particles. (took 0.0261941 sec)
SO iteration 9: need to repeat for 0000218889 particles. (took 0.0259192 sec)
SO iteration 10: need to repeat for 0000218889 particles. (took 0.0261381 sec)
SO iteration 11: need to repeat for 0000218889 particles. (took 0.026346 sec)
SO iteration 12: need to repeat for 0000218889 particles. (took 0.0258992 sec)
SO iteration 13: need to repeat for 0000218889 particles. (took 0.0260351 sec)
SO iteration 14: need to repeat for 0000218889 particles. (took 0.0259762 sec)
SO iteration 15: need to repeat for 0000218670 particles. (took 0.0260222 sec)
SO iteration 16: need to repeat for 0000002854 particles. (took 0.0258279 sec)
SO iteration 17: need to repeat for 0000000053 particles. (took 0.00175619 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.00059104 sec)
SO iteration 1: need to repeat for 0000218889 particles. (took 0.0269229 sec)
SO iteration 2: need to repeat for 0000218889 particles. (took 0.023052 sec)
SO iteration 3: need to repeat for 0000218889 particles. (took 0.0241518 sec)
SO iteration 4: need to repeat for 0000218889 particles. (took 0.024018 sec)
SO iteration 5: need to repeat for 0000218889 particles. (took 0.0235939 sec)
SO iteration 6: need to repeat for 0000218889 particles. (took 0.0245991 sec)
SO iteration 7: need to repeat for 0000218889 particles. (took 0.0242982 sec)
SO iteration 8: need to repeat for 0000218889 particles. (took 0.0243459 sec)
SO iteration 9: need to repeat for 0000218889 particles. (took 0.0239961 sec)
SO iteration 10: need to repeat for 0000218889 particles. (took 0.0245891 sec)
SO iteration 11: need to repeat for 0000218889 particles. (took 0.0235791 sec)
SO iteration 12: need to repeat for 0000218889 particles. (took 0.0236149 sec)
SO iteration 13: need to repeat for 0000218889 particles. (took 0.023519 sec)
SO iteration 14: need to repeat for 0000218889 particles. (took 0.0236521 sec)
SO iteration 15: need to repeat for 0000218858 particles. (took 0.0235991 sec)
SO iteration 16: need to repeat for 0000126805 particles. (took 0.0235429 sec)
SO iteration 17: need to repeat for 0000001919 particles. (took 0.0157619 sec)
SO iteration 18: need to repeat for 0000000056 particles. (took 0.00135994 sec)
SO iteration 1: need to repeat for 0000218889 particles. (took 0.0268362 sec)
SO iteration 2: need to repeat for 0000218889 particles. (took 0.0233381 sec)
SO iteration 3: need to repeat for 0000218889 particles. (took 0.0206521 sec)
SO iteration 4: need to repeat for 0000218889 particles. (took 0.019887 sec)
SO iteration 5: need to repeat for 0000218889 particles. (took 0.0204589 sec)
SO iteration 6: need to repeat for 0000218889 particles. (took 0.0211492 sec)
SO iteration 7: need to repeat for 0000218889 particles. (took 0.0203011 sec)
SO iteration 8: need to repeat for 0000218889 particles. (took 0.0198669 sec)
SO iteration 9: need to repeat for 0000218889 particles. (took 0.0198278 sec)
SO iteration 10: need to repeat for 0000218889 particles. (took 0.0205741 sec)
SO iteration 11: need to repeat for 0000218889 particles. (took 0.020108 sec)
SO iteration 12: need to repeat for 0000218889 particles. (took 0.0201981 sec)
SO iteration 13: need to repeat for 0000218889 particles. (took 0.0204291 sec)
SO iteration 14: need to repeat for 0000218889 particles. (took 0.0200989 sec)
SO iteration 15: need to repeat for 0000218888 particles. (took 0.0201011 sec)
SO iteration 16: need to repeat for 0000218885 particles. (took 0.020612 sec)
SO iteration 17: need to repeat for 0000203032 particles. (took 0.0202138 sec)
SO iteration 18: need to repeat for 0000022879 particles. (took 0.0184491 sec)
SO iteration 19: need to repeat for 0000000246 particles. (took 0.00590515 sec)
SO iteration 20: need to repeat for 0000000016 particles. (took 0.000626087 sec)
SO iteration 21: need to repeat for 0000000002 particles. (took 0.000551224 sec)
SO iteration 1: need to repeat for 0000218889 particles. (took 0.0267849 sec)
SO iteration 2: need to repeat for 0000218889 particles. (took 0.0250871 sec)
SO iteration 3: need to repeat for 0000218889 particles. (took 0.0261121 sec)
SO iteration 4: need to repeat for 0000218889 particles. (took 0.0263288 sec)
SO iteration 5: need to repeat for 0000218889 particles. (took 0.026495 sec)
SO iteration 6: need to repeat for 0000218889 particles. (took 0.026417 sec)
SO iteration 7: need to repeat for 0000218889 particles. (took 0.0263741 sec)
SO iteration 8: need to repeat for 0000218889 particles. (took 0.0267279 sec)
SO iteration 9: need to repeat for 0000218889 particles. (took 0.027118 sec)
SO iteration 10: need to repeat for 0000218889 particles. (took 0.0268121 sec)
SO iteration 11: need to repeat for 0000218889 particles. (took 0.0266652 sec)
SO iteration 12: need to repeat for 0000218889 particles. (took 0.026408 sec)
SO iteration 13: need to repeat for 0000218889 particles. (took 0.0264049 sec)
SO iteration 14: need to repeat for 0000218889 particles. (took 0.0263278 sec)
SO iteration 15: need to repeat for 0000218625 particles. (took 0.026788 sec)
SO iteration 16: need to repeat for 0000001776 particles. (took 0.0263948 sec)
SO iteration 17: need to repeat for 0000000040 particles. (took 0.00158715 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000561953 sec)
SO iteration 1: need to repeat for 0000218889 particles. (took 0.0267751 sec)
SO iteration 2: need to repeat for 0000218889 particles. (took 0.0231118 sec)
SO iteration 3: need to repeat for 0000218889 particles. (took 0.024955 sec)
SO iteration 4: need to repeat for 0000218889 particles. (took 0.0257339 sec)
SO iteration 5: need to repeat for 0000218889 particles. (took 0.0257561 sec)
SO iteration 6: need to repeat for 0000218889 particles. (took 0.0257492 sec)
SO iteration 7: need to repeat for 0000218889 particles. (took 0.025779 sec)
SO iteration 8: need to repeat for 0000218889 particles. (took 0.025928 sec)
SO iteration 9: need to repeat for 0000218889 particles. (took 0.0259888 sec)
SO iteration 10: need to repeat for 0000218889 particles. (took 0.0260141 sec)
SO iteration 11: need to repeat for 0000218889 particles. (took 0.0257161 sec)
SO iteration 12: need to repeat for 0000218889 particles. (took 0.02599 sec)
SO iteration 13: need to repeat for 0000218889 particles. (took 0.0257299 sec)
SO iteration 14: need to repeat for 0000218889 particles. (took 0.025816 sec)
SO iteration 15: need to repeat for 0000218690 particles. (took 0.0260279 sec)
SO iteration 16: need to repeat for 0000003745 particles. (took 0.0256588 sec)
SO iteration 17: need to repeat for 0000000070 particles. (took 0.00200605 sec)
SO iteration 18: need to repeat for 0000000003 particles. (took 0.000597 sec)
SO iteration 1: need to repeat for 0000218889 particles. (took 0.026711 sec)
SO iteration 2: need to repeat for 0000218889 particles. (took 0.0228429 sec)
SO iteration 3: need to repeat for 0000218889 particles. (took 0.0239289 sec)
SO iteration 4: need to repeat for 0000218889 particles. (took 0.024229 sec)
SO iteration 5: need to repeat for 0000218889 particles. (took 0.023206 sec)
SO iteration 6: need to repeat for 0000218889 particles. (took 0.023272 sec)
SO iteration 7: need to repeat for 0000218889 particles. (took 0.0233212 sec)
SO iteration 8: need to repeat for 0000218889 particles. (took 0.023371 sec)
SO iteration 9: need to repeat for 0000218889 particles. (took 0.023675 sec)
SO iteration 10: need to repeat for 0000218889 particles. (took 0.0236132 sec)
SO iteration 11: need to repeat for 0000218889 particles. (took 0.0234311 sec)
SO iteration 12: need to repeat for 0000218889 particles. (took 0.023344 sec)
SO iteration 13: need to repeat for 0000218889 particles. (took 0.0233612 sec)
SO iteration 14: need to repeat for 0000218889 particles. (took 0.0233939 sec)
SO iteration 15: need to repeat for 0000218861 particles. (took 0.0234351 sec)
SO iteration 16: need to repeat for 0000150309 particles. (took 0.0237269 sec)
SO iteration 17: need to repeat for 0000002450 particles. (took 0.0177948 sec)
SO iteration 18: need to repeat for 0000000065 particles. (took 0.00151706 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000574112 sec)
SO iteration 1: need to repeat for 0000218889 particles. (took 0.02683 sec)
SO iteration 2: need to repeat for 0000218889 particles. (took 0.0228591 sec)
SO iteration 3: need to repeat for 0000218889 particles. (took 0.0203869 sec)
SO iteration 4: need to repeat for 0000218889 particles. (took 0.0190721 sec)
SO iteration 5: need to repeat for 0000218889 particles. (took 0.0193081 sec)
SO iteration 6: need to repeat for 0000218889 particles. (took 0.0193958 sec)
SO iteration 7: need to repeat for 0000218889 particles. (took 0.019511 sec)
SO iteration 8: need to repeat for 0000218889 particles. (took 0.019485 sec)
SO iteration 9: need to repeat for 0000218889 particles. (took 0.0198851 sec)
SO iteration 10: need to repeat for 0000218889 particles. (took 0.0194321 sec)
SO iteration 11: need to repeat for 0000218889 particles. (took 0.0194612 sec)
SO iteration 12: need to repeat for 0000218889 particles. (took 0.0194321 sec)
SO iteration 13: need to repeat for 0000218889 particles. (took 0.019428 sec)
SO iteration 14: need to repeat for 0000218889 particles. (took 0.0195489 sec)
SO iteration 15: need to repeat for 0000218888 particles. (took 0.019526 sec)
SO iteration 16: need to repeat for 0000218886 particles. (took 0.019465 sec)
SO iteration 17: need to repeat for 0000209899 particles. (took 0.019567 sec)
SO iteration 18: need to repeat for 0000027961 particles. (took 0.0188398 sec)
SO iteration 19: need to repeat for 0000000289 particles. (took 0.006495 sec)
SO iteration 20: need to repeat for 0000000020 particles. (took 0.000649929 sec)
SO iteration 21: need to repeat for 0000000002 particles. (took 0.000519991 sec)
determining spherical overdensity masses took 2.82567 sec
finding spherical overdensity particles took 0.656973 sec
determining contamination of halos took 0.26566 sec
Global sort of Groups took 0.164523 sec
Global sort of SubGroups took 0.661627 sec
Global sort of IDs took 0.411394 sec
Writing block 0 (GLEN), n=966, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3864d
Writing block 1 (GOFF), n=966, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3864d
Writing block 2 (MTOT), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 3 (GPOS), n=966, ptype=0, dtype=1, ndim=3, bpb=4 bytes=11592d
Writing block 4 (MMEA), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 5 (RMEA), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 6 (MCRI), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 7 (RCRI), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 8 (MTOP), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 9 (RTOP), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 17 (NCON), n=966, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3864d
Writing block 18 (MCON), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 22 (NSUB), n=966, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3864d
Writing block 23 (FSUB), n=966, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3864d
Writing block 24 (SLEN), n=1850, ptype=1, dtype=0, ndim=1, bpb=4 bytes=7400d
Writing block 25 (SOFF), n=1850, ptype=1, dtype=0, ndim=1, bpb=4 bytes=7400d
Writing block 27 (MSUB), n=1850, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 28 (SPOS), n=1850, ptype=1, dtype=1, ndim=3, bpb=4 bytes=22200d
Writing block 29 (SVEL), n=1850, ptype=1, dtype=1, ndim=3, bpb=4 bytes=22200d
Writing block 30 (SCM ), n=1850, ptype=1, dtype=1, ndim=3, bpb=4 bytes=22200d
Writing block 33 (VMAX), n=1850, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 34 (RMAX), n=1850, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 35 (RHMS), n=1850, ptype=1, dtype=1, ndim=6, bpb=4 bytes=44400d
Writing block 36 (MTRH), n=1850, ptype=1, dtype=1, ndim=6, bpb=4 bytes=44400d
Writing block 37 (MBID), n=1850, ptype=1, dtype=2, ndim=1, bpb=8 bytes=14800d
Writing block 38 (GRNR), n=1850, ptype=1, dtype=0, ndim=1, bpb=4 bytes=7400d
Writing block 39 (SUBN), n=1850, ptype=1, dtype=0, ndim=1, bpb=4 bytes=7400d
Writing block 40 (SMST), n=1850, ptype=1, dtype=1, ndim=6, bpb=4 bytes=44400d
Writing block 53 (PID ), n=356583, ptype=2, dtype=2, ndim=1, bpb=8 bytes=2852664d
Writing block 54 (SLEN), n=1850, ptype=1, dtype=0, ndim=6, bpb=4 bytes=44400d
Writing block 55 (STEN), n=1850, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 56 (SKEN), n=1850, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 57 (SUEN), n=1850, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 58 (SUIT), n=1850, ptype=1, dtype=1, ndim=9, bpb=4 bytes=66600d
Writing block 59 (BHMA), n=1850, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 60 (BHMD), n=1850, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 61 (SVD ), n=1850, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 62 (SVDH), n=1850, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 63 (HMPR), n=1850, ptype=1, dtype=1, ndim=6, bpb=4 bytes=44400d
Writing block 64 (SSFR), n=1850, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 65 (SSA ), n=1850, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 66 (SSBZ), n=1850, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 67 (SSIM), n=1850, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 68 (SSPI), n=1850, ptype=4, dtype=1, ndim=3, bpb=4 bytes=22200d
Writing block 69 (GSPI), n=1850, ptype=1, dtype=1, ndim=3, bpb=4 bytes=22200d
Writing block 70 (FSPI), n=1850, ptype=5, dtype=1, ndim=3, bpb=4 bytes=22200d
Writing block 71 (SFM ), n=1850, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 72 (SFMT), n=1850, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 73 (SFME), n=1850, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 74 (SFAE), n=1850, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 75 (SFKE), n=1850, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 76 (SFTE), n=1850, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 77 (SMWP), n=1850, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 78 (SMM ), n=1850, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 79 (SMMS), n=1850, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 80 (SFZ ), n=1850, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 81 (SFZS), n=1850, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 82 (SSIA), n=1850, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 83 (SIAS), n=1850, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 84 (SMET), n=1850, ptype=5, dtype=1, ndim=9, bpb=4 bytes=66600d
Writing block 85 (SMTS), n=1850, ptype=5, dtype=1, ndim=9, bpb=4 bytes=66600d
Writing block 86 (MF1 ), n=1850, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 87 (MeF1), n=1850, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 88 (MF  ), n=1850, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 89 (MeF2), n=1850, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 90 (MFA ), n=1850, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 91 (MeFA), n=1850, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 92 (NSPI), n=1850, ptype=6, dtype=1, ndim=3, bpb=4 bytes=22200d
Writing block 93 (NFM ), n=1850, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 94 (NFMT), n=1850, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 95 (NFME), n=1850, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 96 (NFAE), n=1850, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 97 (NFKE), n=1850, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 98 (NFTE), n=1850, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 99 (SMWP), n=1850, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 100 (SMM ), n=1850, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 101 (SMMS), n=1850, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 102 (SSIA), n=1850, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 103 (SIAS), n=1850, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 104 (SMET), n=1850, ptype=6, dtype=1, ndim=9, bpb=4 bytes=66600d
Writing block 105 (SMTS), n=1850, ptype=6, dtype=1, ndim=9, bpb=4 bytes=66600d
Writing block 106 (MF1 ), n=1850, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 107 (MeF1), n=1850, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 108 (MF2 ), n=1850, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 109 (MeF2), n=1850, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 110 (MFA ), n=1850, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 111 (MeFA), n=1850, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 112 (SM  ), n=1850, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 113 (SFKE), n=1850, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 114 (SFAE), n=1850, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 115 (SMWP), n=1850, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 116 (SMM ), n=1850, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 117 (SMMS), n=1850, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 118 (SSIA), n=1850, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 119 (SIAS), n=1850, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 120 (SMET), n=1850, ptype=4, dtype=1, ndim=9, bpb=4 bytes=66600d
Writing block 121 (SMTS), n=1850, ptype=4, dtype=1, ndim=9, bpb=4 bytes=66600d
Writing block 122 (MF1 ), n=1850, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 123 (MeF1), n=1850, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 124 (MF2 ), n=1850, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 125 (MeF2), n=1850, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 126 (MFA ), n=1850, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 127 (MeFA), n=1850, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7400d
Writing block 128 (MMe5), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 129 (RMe5), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 130 (MCr5), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 131 (RCr5), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 132 (MMe2), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 133 (RMe2), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 134 (MCr2), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 135 (RCr2), n=966, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3864d
Writing block 136 (MAPT), n=1850, ptype=7, dtype=1, ndim=60, bpb=4 bytes=444000d
Writing block 137 (SAPT), n=1850, ptype=8, dtype=1, ndim=10, bpb=4 bytes=74000d
Writing block 138 (VAPT), n=1850, ptype=9, dtype=1, ndim=10, bpb=4 bytes=74000d
Writing block 139 (BEGY), n=356583, ptype=2, dtype=1, ndim=1, bpb=4 bytes=1426332d
Subgroup catalogues saved. took = 6.05582 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 7.501700e-01
 eagle_ph_key_ort: type= 2 timed by volker 5.718803e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.817390e-02
 eagle_ph_key_ort: type= 4 timed by volker 4.817390e-02
 eagle_ph_key_ort: type= 5 timed by volker 4.817390e-02
 eagle_ph_key_ort: timing parallel sort = 8.647511e-01
 eagle_fetch_elements: we are using 1986371763 bytes of memory, FreeBytes= 2482964704

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 1582.06 Mbyte (on task=0), Smallest = 1319.6 Mbyte, Average = 1329.61 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9980    1203.0120  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5206    1227.5326  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8677    1268.4003  fof_fof()/fof.c/337
   0 2975 0             Group      1.3260    1269.7263  fof_fof()/fof.c/380
   0 2976 0          SubGroup    287.8376    1557.5639  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.4965    1582.0603  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 2520607 number of bytes = 806594240

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3475.98 Mbyte (on task=0), Smallest = 3213.64 Mbyte, Average = 3223.84 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9980    1203.0120  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5206    1227.5326  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8677    1268.4003  fof_fof()/fof.c/337
   0 2975 0             Group      1.3260    1269.7263  fof_fof()/fof.c/380
   0 2976 0          SubGroup    287.8376    1557.5639  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.4965    1582.0603  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      9.6154    1591.6757  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      9.6154    1601.2910  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      9.6154    1610.9064  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    769.2282    2380.1346  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    769.2282    3149.3628  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    326.6196    3475.9824  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.597118e+00
 eagle_fetch_elements: we are using 1986371763 bytes of memory, FreeBytes= 2482964704
 eagle_fetch_elements: max_bytes= 504, max_elements= 1947423 number of bytes = 981501192
 eagle_ph_key_ort: timing parallel SphP exchange = 2.812147e-03
 eagle_fetch_elements: we are using 1986371763 bytes of memory, FreeBytes= 2482964704
 eagle_fetch_elements: max_bytes= 384, max_elements= 2546630 number of bytes = 977905920
 eagle_ph_key_ort: timing parallel MetP exchange = 5.438328e-04
 eagle_fetch_elements: we are using 1986371763 bytes of memory, FreeBytes= 2482964704
 eagle_fetch_elements: max_bytes= 256, max_elements= 3790785 number of bytes = 970440960
 eagle_ph_key_ort: timing parallel BHP exchange = 5.180836e-04
Sorting particle-data by peano-hilbert key took = 3.84599 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1986371763 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 2520607 number of bytes= 806594240
 eagle_ph_restore: timing parallel P exchange = 2.690147e+00
 eagle_send_elements: we are using 1986371763 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1947423 number of bytes= 981501192
 eagle_ph_restore: timing parallel SphP exchange = 2.753973e-03
 eagle_send_elements: we are using 1986371763 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2546630 number of bytes= 977905920
 eagle_ph_restore: timing parallel MetP exchange = 1.680136e-03
 eagle_send_elements: we are using 1986371763 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 3790785 number of bytes= 970440960
 eagle_ph_restore: timing parallel BHP exchange = 6.828308e-04
Restoring original order after ph key sorting took = 2.71128 sec

finished writing particle file...

Finished with SUBFIND.  (total time=684.041 sec)

Finished computing FoF groups.  (presently allocated=1203.01 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=178817
After=201457
NTopleaves= 176275  NTopnodes=201457 (space for 244687)
gravity work-load balance=1.00047   memory-balance=1.00047   SPH work-load balance=0
iter=0 exchange of 0273266147 particles (ret=0)
domain decomposition done. (took 3.78742 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.97891 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
task 16: endrun called with an error level of 124


task 16: endrun called with an error level of 124


task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
task 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
task 128: endrun called with an error level of 124


task 128: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 160: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
task 160: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
task 176: endrun called with an error level of 124


task 176: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 192: endrun called with an error level of 124


task 192: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
Finished FOF, total time doing fof/subfind = 704.395 s
task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12)  An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
task 0: endrun called with an error level of 124


    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.46 Mb (on task=112), Smallest =   62646.25 Mb (on task=0), Average =   62686.87 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1885.82 Mb (on task=0), Smallest =    1798.60 Mb (on task=112), Average =    1845.20 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16337.65 Mb (on task=112), Average =   16351.19 Mb
AllocMem:	 Largest =    1885.82 Mb (on task=0), Smallest =    1798.60 Mb (on task=112), Average =    1845.20 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_006_z001p993/snap_006_z001p993.0.hdf5' on task=0 (contains 17069408 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  16859520  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     25048  (tot=     0000303834) masstab=0
Type 3 (bulge):   184840  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.33474

Setting next time for line of sight file to Time_next= 0.334706

Setting next time for snipshot file to Time_next= 0.342781

Setting next time for fof output to Time_next= 0.342781
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.05122 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
Before=178129
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=178129
After=198361
NTopleaves= 173566  NTopnodes=198361 (space for 244687)
gravity work-load balance=1.00047   memory-balance=1.00047   SPH work-load balance=0
iter=0 exchange of 0273107757 particles (ret=0)
domain decomposition done. (took 9.86489 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.12064 MByte in top-level domain structure

Allocated 503.196 MByte for BH-tree, and 0.662102 Mbyte for top-leaves.  (presently allocted 1706.71 MB)

Begin Ngb-tree construction.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1752.89 Mbyte (on task=137), Smallest = 1752.81 Mbyte, Average = 1752.88 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 137 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
 137 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
 137 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
 137 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
 137 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
 137 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
 137 2972 0          TopNodes      9.8369    1202.8520  domain_allocate()/domain.c/570
 137 2973 0   DomainNodeIndex      0.6621    1203.5141  force_treeallocate()/forcetree.c/4800
 137 2974 0        Nodes_base    258.4545    1461.9686  force_treeallocate()/forcetree.c/4803
 137 2975 0     Extnodes_base    215.3787    1677.3473  force_treeallocate()/forcetree.c/4811
 137 2976 0          Nextnode     15.0599    1692.4072  force_treeallocate()/forcetree.c/4820
 137 2977 0            Father     14.3032    1706.7104  force_treeallocate()/forcetree.c/4827
 137 2978 0           Ngblist      4.0886    1710.7990  density()/density.c/690
 137 2979 0              Left      8.1771    1718.9761  density()/density.c/692
 137 2980 0             Right      8.1771    1727.1532  density()/density.c/693
 137 2981 0    DataIndexTable      7.0175    1734.1708  density()/density.c/738
 137 2982 0      DataNodeList     18.7134    1752.8842  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_1.871.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_2.013.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.71 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=180369
After=201593
NTopleaves= 176394  NTopnodes=201593 (space for 244687)
gravity work-load balance=1.00061   memory-balance=1.00061   SPH work-load balance=0
iter=0 exchange of 0273444952 particles (ret=0)
domain decomposition done. (took 3.79958 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.97269 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1203.01 MB)
Tree construction.

Start linking particles (presently allocated=1756.5 MB)
links on local processor done (took 3.55129 sec).
Marked=0032155338 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1858.11 MB) 
have done 0000858277 cross links (processed 0032155338, took 0.82026 sec)
have done 0000312417 cross links (processed 0019291272, took 0.659067 sec)
have done 0000186135 cross links (processed 0014304277, took 0.589977 sec)
have done 0000101476 cross links (processed 0007662850, took 0.449806 sec)
have done 0000051679 cross links (processed 0003803394, took 0.348882 sec)
have done 0000023328 cross links (processed 0001073012, took 0.187594 sec)
have done 0000010318 cross links (processed 0000490577, took 0.145339 sec)
have done 0000005473 cross links (processed 0000309943, took 0.108444 sec)
have done 0000002572 cross links (processed 0000113360, took 0.100937 sec)
have done 0000001259 cross links (processed 0000040577, took 0.0538781 sec)
have done 0000001247 cross links (processed 0000115851, took 0.15439 sec)
have done 0000000916 cross links (processed 0000102729, took 0.127669 sec)
have done 0000000383 cross links (processed 0000012090, took 0.0475619 sec)
have done 0000000092 cross links (processed 0000001720, took 0.044893 sec)
have done 0000000022 cross links (processed 0000000341, took 0.044256 sec)
have done 0000000008 cross links (processed 0000000077, took 0.0442481 sec)
have done 0000000000 cross links (processed 0000000018, took 0.044307 sec)
Local groups found.

group finding took = 7.60359 sec
Start finding nearest dm-particle (presently allocated=1756.5 MB)
still finding nearest... (presently allocated=1845.96 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.109508 sec
compiling local group data and catalogue took = 0.741412 sec

Total number of groups with at least 32 particles: 244718
Largest group has 2961422 particles.
Total number of particles in groups: 0091644532

group properties are now allocated.. (presently allocated=1269.56 MB)
computation of group properties took = 0.0493591 sec
start global sorting of group catalogues number 6
LargestGroup = 2331.140207; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0528662 sec
Group catalogues globally sorted. took = 0.674059 sec
starting saving of group catalogue number 6
data//groups_006_z001p993
Group catalogues number 6 saved. took = 1.68265 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.698029 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.281601 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.692676 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0179598456 particles. (took 20.4247 sec)
ngb iteration 2: need to repeat for 0142259393 particles. (took 9.05298 sec)
ngb iteration 3: need to repeat for 0122995415 particles. (took 6.74848 sec)
ngb iteration 4: need to repeat for 0111529270 particles. (took 5.37603 sec)
ngb iteration 5: need to repeat for 0100192519 particles. (took 4.7006 sec)
ngb iteration 6: need to repeat for 0084991714 particles. (took 4.17712 sec)
ngb iteration 7: need to repeat for 0066009746 particles. (took 3.61349 sec)
ngb iteration 8: need to repeat for 0046733582 particles. (took 2.99659 sec)
ngb iteration 9: need to repeat for 0030592868 particles. (took 2.26514 sec)
ngb iteration 10: need to repeat for 0018884220 particles. (took 1.59926 sec)
ngb iteration 11: need to repeat for 0011196858 particles. (took 1.04736 sec)
ngb iteration 12: need to repeat for 0006456833 particles. (took 0.645666 sec)
ngb iteration 13: need to repeat for 0003650233 particles. (took 0.39246 sec)
ngb iteration 14: need to repeat for 0001958099 particles. (took 0.25203 sec)
ngb iteration 15: need to repeat for 0000919723 particles. (took 0.165756 sec)
ngb iteration 16: need to repeat for 0000418662 particles. (took 0.105983 sec)
ngb iteration 17: need to repeat for 0000191841 particles. (took 0.075129 sec)
ngb iteration 18: need to repeat for 0000088564 particles. (took 0.0596581 sec)
ngb iteration 19: need to repeat for 0000040846 particles. (took 0.051898 sec)
ngb iteration 20: need to repeat for 0000018309 particles. (took 0.0468941 sec)
ngb iteration 21: need to repeat for 0000007972 particles. (took 0.0444901 sec)
ngb iteration 22: need to repeat for 0000003223 particles. (took 0.0423651 sec)
ngb iteration 23: need to repeat for 0000001202 particles. (took 0.0412219 sec)
ngb iteration 24: need to repeat for 0000000388 particles. (took 0.0405891 sec)
ngb iteration 25: need to repeat for 0000000104 particles. (took 0.040415 sec)
ngb iteration 26: need to repeat for 0000000027 particles. (took 0.0404019 sec)
ngb iteration 27: need to repeat for 0000000004 particles. (took 0.0402179 sec)
ngb iteration 28: need to repeat for 0000000002 particles. (took 0.040343 sec)
ngb iteration 29: need to repeat for 0000000001 particles. (took 0.0401812 sec)
final operations ... 
density and smoothing length for species 1 took 64.5292 sec
Tree construction.
tree build took 0.697002 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.282104 sec
Tree construction.
tree build took 0.687103 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.28327 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.163605 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.9876 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.686042 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.184215 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.89389 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.16458 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.95951 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.904508 sec
saving densities took 2.09744 sec

Number of FOF halos treated with collective SubFind code = 1
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 244717 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 26883 - 42377187 

subfind_exchange()() took 1.39369 sec

collectively doing halo 1, num=6
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1618.14 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1677.69 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1677.69 Mbyte (on task=0), Smallest = 1355.79 Mbyte, Average = 1368.1 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9972    1203.0112  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5346    1227.5458  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8910    1268.4369  fof_fof()/fof.c/337
   0 2975 0             Group      1.1216    1269.5585  fof_fof()/fof.c/380
   0 2976 0          SubGroup    348.5788    1618.1373  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    1630.3966  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    1659.0030  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    1659.9482  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    1660.8816  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    1661.8150  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    1662.7484  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    1663.6857  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    1664.6230  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    1677.6907  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=142905
After=165913
NTopleaves= 145174  NTopnodes=165913 (space for 244687)
gravity work-load balance=1.00051   memory-balance=1.00051   SPH work-load balance=0
iter=0 exchange of 0002951085 particles (ret=0)
domain decomposition done. (took 0.876662 sec)
Freed 3.60599 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 2124.67 Mbyte (on task=0), Smallest = 1802.77 Mbyte, Average = 1815.08 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9972    1203.0112  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5346    1227.5458  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8910    1268.4369  fof_fof()/fof.c/337
   0 2975 0             Group      1.1216    1269.5585  fof_fof()/fof.c/380
   0 2976 0          SubGroup    348.5788    1618.1373  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.2278    1626.4901  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5538    1627.0439  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    255.4838    1882.5277  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base    212.9031    2095.4308  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9361    2110.3669  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    2124.6702  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.32541 sec  (presently allocated=2124.67 MB)
force_treebuild() took 1.59471 sec (presently allocated=2124.67 MB)
Start find_linkngb (11568 particles on task=0)
find linkngb iteration 1: need to repeat for 0002958280 particles. (took 0.249535 sec)
find linkngb iteration 2: need to repeat for 0002912659 particles. (took 0.14472 sec)
find linkngb iteration 3: need to repeat for 0002788510 particles. (took 0.111216 sec)
find linkngb iteration 4: need to repeat for 0002503162 particles. (took 0.108938 sec)
find linkngb iteration 5: need to repeat for 0002102076 particles. (took 0.0956371 sec)
find linkngb iteration 6: need to repeat for 0001530508 particles. (took 0.0813041 sec)
find linkngb iteration 7: need to repeat for 0000964681 particles. (took 0.061697 sec)
find linkngb iteration 8: need to repeat for 0000548900 particles. (took 0.0430989 sec)
find linkngb iteration 9: need to repeat for 0000293558 particles. (took 0.0286582 sec)
find linkngb iteration 10: need to repeat for 0000152456 particles. (took 0.0196869 sec)
find linkngb iteration 11: need to repeat for 0000077447 particles. (took 0.0144279 sec)
find linkngb iteration 12: need to repeat for 0000017176 particles. (took 0.011163 sec)
find linkngb iteration 13: need to repeat for 0000000182 particles. (took 0.00705218 sec)
find linkngb iteration 14: need to repeat for 0000000018 particles. (took 0.000485897 sec)
find linkngb iteration 15: need to repeat for 0000000003 particles. (took 0.000368118 sec)
find_linkngb() took 0.979128 sec
Start finding nearest two (11568 particles on task=0)
find_nearesttwo() took 0.193913 sec (presently allocated=2125.55 MB)
parallel sort of densities done. took 0.0447221 sec
building distributed linked list. (presently allocated 2125.44 MB)
identification of primary candidates took 76.3078 sec
adding background as candidate took 0.159107 sec
establishing of rank order took 24.9531 sec  (p=2961422, grouplen=2961422) presently allocated 2125.44 MB

total number of subhalo candidates=12722

number of subhalo candidates that can be done independently=11269.
(Largest size is 1131, finding them took 0.0038271 sec)
particles are marked (took 15.4011)
independent subhalos are assembled on individual CPUs for unbinding (0.149268 sec, (presently allocated=2125.44 MB)
unbinding of independent ones took 0.0170979 sec
particles have returned to their original processor (0.200955 sec, presently allocated 2125.44 MB)

number of subhalo candidates that can be done independently=1315.
(Largest size is 6735, finding them took 0.806673 sec)
particles are marked (took 9.75443)
independent subhalos are assembled on individual CPUs for unbinding (0.151872 sec, (presently allocated=2125.44 MB)
unbinding of independent ones took 0.132534 sec
particles have returned to their original processor (0.205491 sec, presently allocated 2125.44 MB)

number of subhalo candidates that can be done independently=123.
(Largest size is 31878, finding them took 0.804264 sec)
particles are marked (took 8.10712)
independent subhalos are assembled on individual CPUs for unbinding (0.153825 sec, (presently allocated=2125.44 MB)
unbinding of independent ones took 0.713046 sec
particles have returned to their original processor (0.211091 sec, presently allocated 2125.44 MB)

number of subhalo candidates that can be done independently=14.
(Largest size is 79937, finding them took 0.438293 sec)
particles are marked (took 8.54476)
independent subhalos are assembled on individual CPUs for unbinding (0.173141 sec, (presently allocated=2125.44 MB)
unbinding of independent ones took 3.11423 sec
particles have returned to their original processor (0.247261 sec, presently allocated 2125.44 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 2961422, finding them took 0.438596 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=2961422 ... maximum alloacted 2125.48 MB
took 53.1601 sec

the collective unbinding of remaining halos took 58.6879 sec

found 813 bound substructures in FoF group of length 2961422
determination of parent subhalo took 0.0368049 sec (presently allocated 2125.48 MB)
determining substructure properties took 56.88 sec (presently allocated 2125.48 MB)
processing of collective halos took 278.732 sec
sort of local particles()() took 0.73273 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 502.955 sec

Task 189: testing particles ...
Task 225: testing particles ...
Task 178: testing particles ...
Task 254: testing particles ...
Task 135: testing particles ...
Task 224: testing particles ...
Task 240: testing particles ...
Task 205: testing particles ...
Task 223: testing particles ...
Task 172: testing particles ...
Task 213: testing particles ...
Task 139: testing particles ...
Task 197: testing particles ...
Task 239: testing particles ...
Task 176: testing particles ...
Task 158: testing particles ...
Task 160: testing particles ...
unsorting of local particles()() took 0.551445 sec
Task 0: testing particles ...
Task 222: testing particles ...
Task 193: testing particles ...
Task 109: testing particles ...
Task 247: testing particles ...
Task 187: testing particles ...
Task 169: testing particles ...
Task 234: testing particles ...
Task 175: testing particles ...
Task 252: testing particles ...
Task 155: testing particles ...
Task 94: testing particles ...
Task 207: testing particles ...
Task 161: testing particles ...
Task 164: testing particles ...
Task 144: testing particles ...
Task 145: testing particles ...
Task 137: testing particles ...
Task 204: testing particles ...
Task 132: testing particles ...
Task 185: testing particles ...
Task 118: testing particles ...
Task 85: testing particles ...
Task 216: testing particles ...
Task 236: testing particles ...
Task 250: testing particles ...
Task 83: testing particles ...
Task 170: testing particles ...
Task 153: testing particles ...
Task 181: testing particles ...
Task 106: testing particles ...
Task 200: testing particles ...
Task 100: testing particles ...
Task 198: testing particles ...
Task 71: testing particles ...
Task 209: testing particles ...
Task 212: testing particles ...
Task 107: testing particles ...
Task 253: testing particles ...
Task 238: testing particles ...
Task 210: testing particles ...
Task 142: testing particles ...
Task 226: testing particles ...
Task 173: testing particles ...
Task 149: testing particles ...
Task 122: testing particles ...
Task 130: testing particles ...
Task 255: testing particles ...
Task 231: testing particles ...
Task 126: testing particles ...
Task 196: testing particles ...
Task 127: testing particles ...
Task 138: testing particles ...
Task 151: testing particles ...
Task 191: testing particles ...
Task 177: testing particles ...
Task 229: testing particles ...
Task 99: testing particles ...
Task 230: testing particles ...
Task 128: testing particles ...
Task 217: testing particles ...
Task 243: testing particles ...
Task 244: testing particles ...
Task 208: testing particles ...
Task 188: testing particles ...
Task 228: testing particles ...
Task 110: testing particles ...
Task 235: testing particles ...
Task 72: testing particles ...
Task 199: testing particles ...
Task 146: testing particles ...
Task 92: testing particles ...
Task 121: testing particles ...
Task 163: testing particles ...
Task 245: testing particles ...
Task 124: testing particles ...
Task 186: testing particles ...
Task 103: testing particles ...
Task 112: testing particles ...
Task 140: testing particles ...
Task 201: testing particles ...
Task 165: testing particles ...
Task 214: testing particles ...
Task 183: testing particles ...
Task 182: testing particles ...
Task 119: testing particles ...
Task 174: testing particles ...
Task 202: testing particles ...
Task 220: testing particles ...
Task 218: testing particles ...
Task 101: testing particles ...
Task 184: testing particles ...
Task 227: testing particles ...
Task 129: testing particles ...
Task 241: testing particles ...
Task 117: testing particles ...
Task 152: testing particles ...
Task 95: testing particles ...
Task 237: testing particles ...
Task 219: testing particles ...
Task 52: testing particles ...
Task 180: testing particles ...
Task 211: testing particles ...
Task 51: testing particles ...
Task 190: testing particles ...
Task 134: testing particles ...
Task 102: testing particles ...
Task 249: testing particles ...
Task 148: testing particles ...
Task 68: testing particles ...
Task 105: testing particles ...
Task 87: testing particles ...
Task 168: testing particles ...
Task 246: testing particles ...
Task 154: testing particles ...
Task 77: testing particles ...
Task 96: testing particles ...
Task 203: testing particles ...
Task 57: testing particles ...
Task 75: testing particles ...
Task 233: testing particles ...
Task 62: testing particles ...
Task 179: testing particles ...
Task 156: testing particles ...
Task 242: testing particles ...
Task 47: testing particles ...
Task 120: testing particles ...
Task 251: testing particles ...
Task 157: testing particles ...
Task 64: testing particles ...
Task 32: testing particles ...
Task 113: testing particles ...
Task 78: testing particles ...
Task 67: testing particles ...
Task 171: testing particles ...
Task 63: testing particles ...
Task 195: testing particles ...
Task 98: testing particles ...
Task 61: testing particles ...
Task 79: testing particles ...
Task 90: testing particles ...
Task 248: testing particles ...
Task 221: testing particles ...
Task 91: testing particles ...
Task 116: testing particles ...
Task 141: testing particles ...
Task 88: testing particles ...
Task 167: testing particles ...
Task 59: testing particles ...
Task 133: testing particles ...
Task 55: testing particles ...
Task 65: testing particles ...
Task 74: testing particles ...
Task 123: testing particles ...
Task 45: testing particles ...
Task 159: testing particles ...
Task 206: testing particles ...
Task 232: testing particles ...
Task 125: testing particles ...
Task 84: testing particles ...
Task 166: testing particles ...
Task 41: testing particles ...
Task 114: testing particles ...
Task 53: testing particles ...
Task 162: testing particles ...
Task 69: testing particles ...
Task 38: testing particles ...
Task 192: testing particles ...
Task 34: testing particles ...
Task 31: testing particles ...
Task 70: testing particles ...
Task 82: testing particles ...
Task 215: testing particles ...
Task 136: testing particles ...
Task 48: testing particles ...
Task 86: testing particles ...
Task 80: testing particles ...
Task 76: testing particles ...
Task 143: testing particles ...
Task 194: testing particles ...
Task 81: testing particles ...
Task 108: testing particles ...
Task 93: testing particles ...
Task 58: testing particles ...
Task 97: testing particles ...
Task 150: testing particles ...
Task 115: testing particles ...
Task 60: testing particles ...
Task 147: testing particles ...
Task 40: testing particles ...
Task 131: testing particles ...
Task 37: testing particles ...
Task 89: testing particles ...
Task 66: testing particles ...
Task 29: testing particles ...
Task 44: testing particles ...
Task 33: testing particles ...
Task 104: testing particles ...
Task 111: testing particles ...
Task 56: testing particles ...
Task 28: testing particles ...
Task 49: testing particles ...
Task 54: testing particles ...
Task 23: testing particles ...
Task 27: testing particles ...
Task 73: testing particles ...
Task 30: testing particles ...
Task 50: testing particles ...
Task 42: testing particles ...
Task 24: testing particles ...
Task 39: testing particles ...
Task 43: testing particles ...
Task 15: testing particles ...
Task 46: testing particles ...
Task 26: testing particles ...
Task 22: testing particles ...
Task 21: testing particles ...
Task 35: testing particles ...
Task 20: testing particles ...
Task 14: testing particles ...
Task 16: testing particles ...
Task 25: testing particles ...
Task 17: testing particles ...
Task 19: testing particles ...
Task 36: testing particles ...
Task 13: testing particles ...
Task 12: testing particles ...
Task 18: testing particles ...
Task 11: testing particles ...
Task 7: testing particles ...
Task 10: testing particles ...
Task 9: testing particles ...
Task 8: testing particles ...
Task 6: testing particles ...
Task 5: testing particles ...
Task 4: testing particles ...
Task 3: testing particles ...
Task 2: testing particles ...
Task 1: testing particles ...
subfind_exchange() (for return to original CPU)  took 2.77265 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1618.14 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1677.69 MB)
Before=185297
After=205729
NTopleaves= 180013  NTopnodes=205729 (space for 244687)
gravity work-load balance=1.00044   memory-balance=1.00044   SPH work-load balance=0
iter=0 exchange of 0273107973 particles (ret=0)
domain decomposition done. (took 3.8464 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.78336 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000214844 particles. (took 0.0281971 sec)
SO iteration 2: need to repeat for 0000214844 particles. (took 0.024123 sec)
SO iteration 3: need to repeat for 0000214844 particles. (took 0.0253971 sec)
SO iteration 4: need to repeat for 0000214844 particles. (took 0.026242 sec)
SO iteration 5: need to repeat for 0000214844 particles. (took 0.0262759 sec)
SO iteration 6: need to repeat for 0000214844 particles. (took 0.026444 sec)
SO iteration 7: need to repeat for 0000214844 particles. (took 0.0264289 sec)
SO iteration 8: need to repeat for 0000214844 particles. (took 0.026329 sec)
SO iteration 9: need to repeat for 0000214844 particles. (took 0.0263898 sec)
SO iteration 10: need to repeat for 0000214844 particles. (took 0.0280609 sec)
SO iteration 11: need to repeat for 0000214844 particles. (took 0.0263481 sec)
SO iteration 12: need to repeat for 0000214844 particles. (took 0.026392 sec)
SO iteration 13: need to repeat for 0000214844 particles. (took 0.0263519 sec)
SO iteration 14: need to repeat for 0000214844 particles. (took 0.0264349 sec)
SO iteration 15: need to repeat for 0000214593 particles. (took 0.02636 sec)
SO iteration 16: need to repeat for 0000002249 particles. (took 0.0261679 sec)
SO iteration 17: need to repeat for 0000000056 particles. (took 0.00165415 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000579834 sec)
SO iteration 1: need to repeat for 0000214844 particles. (took 0.0271089 sec)
SO iteration 2: need to repeat for 0000214844 particles. (took 0.023375 sec)
SO iteration 3: need to repeat for 0000214844 particles. (took 0.0244932 sec)
SO iteration 4: need to repeat for 0000214844 particles. (took 0.0238349 sec)
SO iteration 5: need to repeat for 0000214844 particles. (took 0.024123 sec)
SO iteration 6: need to repeat for 0000214844 particles. (took 0.023854 sec)
SO iteration 7: need to repeat for 0000214844 particles. (took 0.0237958 sec)
SO iteration 8: need to repeat for 0000214844 particles. (took 0.0237789 sec)
SO iteration 9: need to repeat for 0000214844 particles. (took 0.023896 sec)
SO iteration 10: need to repeat for 0000214844 particles. (took 0.0243208 sec)
SO iteration 11: need to repeat for 0000214844 particles. (took 0.024127 sec)
SO iteration 12: need to repeat for 0000214844 particles. (took 0.0237529 sec)
SO iteration 13: need to repeat for 0000214844 particles. (took 0.0238872 sec)
SO iteration 14: need to repeat for 0000214844 particles. (took 0.0238869 sec)
SO iteration 15: need to repeat for 0000214804 particles. (took 0.0238249 sec)
SO iteration 16: need to repeat for 0000108019 particles. (took 0.0238631 sec)
SO iteration 17: need to repeat for 0000001368 particles. (took 0.014585 sec)
SO iteration 18: need to repeat for 0000000044 particles. (took 0.00115299 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000635862 sec)
SO iteration 1: need to repeat for 0000214844 particles. (took 0.0270991 sec)
SO iteration 2: need to repeat for 0000214844 particles. (took 0.0232699 sec)
SO iteration 3: need to repeat for 0000214844 particles. (took 0.019829 sec)
SO iteration 4: need to repeat for 0000214844 particles. (took 0.0201218 sec)
SO iteration 5: need to repeat for 0000214844 particles. (took 0.0199909 sec)
SO iteration 6: need to repeat for 0000214844 particles. (took 0.0199149 sec)
SO iteration 7: need to repeat for 0000214844 particles. (took 0.0201559 sec)
SO iteration 8: need to repeat for 0000214844 particles. (took 0.020117 sec)
SO iteration 9: need to repeat for 0000214844 particles. (took 0.019906 sec)
SO iteration 10: need to repeat for 0000214844 particles. (took 0.0203989 sec)
SO iteration 11: need to repeat for 0000214844 particles. (took 0.0198951 sec)
SO iteration 12: need to repeat for 0000214844 particles. (took 0.0199821 sec)
SO iteration 13: need to repeat for 0000214844 particles. (took 0.0202632 sec)
SO iteration 14: need to repeat for 0000214844 particles. (took 0.0199239 sec)
SO iteration 15: need to repeat for 0000214844 particles. (took 0.019896 sec)
SO iteration 16: need to repeat for 0000214839 particles. (took 0.0198841 sec)
SO iteration 17: need to repeat for 0000187345 particles. (took 0.0198579 sec)
SO iteration 18: need to repeat for 0000014642 particles. (took 0.0181801 sec)
SO iteration 19: need to repeat for 0000000179 particles. (took 0.00432611 sec)
SO iteration 20: need to repeat for 0000000006 particles. (took 0.000605106 sec)
SO iteration 1: need to repeat for 0000214844 particles. (took 0.0270741 sec)
SO iteration 2: need to repeat for 0000214844 particles. (took 0.0254111 sec)
SO iteration 3: need to repeat for 0000214844 particles. (took 0.026226 sec)
SO iteration 4: need to repeat for 0000214844 particles. (took 0.0266449 sec)
SO iteration 5: need to repeat for 0000214844 particles. (took 0.0266531 sec)
SO iteration 6: need to repeat for 0000214844 particles. (took 0.0267658 sec)
SO iteration 7: need to repeat for 0000214844 particles. (took 0.0265889 sec)
SO iteration 8: need to repeat for 0000214844 particles. (took 0.0266089 sec)
SO iteration 9: need to repeat for 0000214844 particles. (took 0.0268829 sec)
SO iteration 10: need to repeat for 0000214844 particles. (took 0.026974 sec)
SO iteration 11: need to repeat for 0000214844 particles. (took 0.026675 sec)
SO iteration 12: need to repeat for 0000214844 particles. (took 0.0265419 sec)
SO iteration 13: need to repeat for 0000214844 particles. (took 0.0276251 sec)
SO iteration 14: need to repeat for 0000214844 particles. (took 0.0266891 sec)
SO iteration 15: need to repeat for 0000214544 particles. (took 0.027544 sec)
SO iteration 16: need to repeat for 0000001513 particles. (took 0.0264239 sec)
SO iteration 17: need to repeat for 0000000044 particles. (took 0.00134206 sec)
SO iteration 1: need to repeat for 0000214844 particles. (took 0.0271041 sec)
SO iteration 2: need to repeat for 0000214844 particles. (took 0.0233009 sec)
SO iteration 3: need to repeat for 0000214844 particles. (took 0.025265 sec)
SO iteration 4: need to repeat for 0000214844 particles. (took 0.0260401 sec)
SO iteration 5: need to repeat for 0000214844 particles. (took 0.026047 sec)
SO iteration 6: need to repeat for 0000214844 particles. (took 0.0260599 sec)
SO iteration 7: need to repeat for 0000214844 particles. (took 0.026046 sec)
SO iteration 8: need to repeat for 0000214844 particles. (took 0.0260141 sec)
SO iteration 9: need to repeat for 0000214844 particles. (took 0.0260599 sec)
SO iteration 10: need to repeat for 0000214844 particles. (took 0.0260458 sec)
SO iteration 11: need to repeat for 0000214844 particles. (took 0.0260248 sec)
SO iteration 12: need to repeat for 0000214844 particles. (took 0.0261049 sec)
SO iteration 13: need to repeat for 0000214844 particles. (took 0.0260019 sec)
SO iteration 14: need to repeat for 0000214844 particles. (took 0.0265372 sec)
SO iteration 15: need to repeat for 0000214634 particles. (took 0.026464 sec)
SO iteration 16: need to repeat for 0000003392 particles. (took 0.0262561 sec)
SO iteration 17: need to repeat for 0000000075 particles. (took 0.0019331 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000571012 sec)
SO iteration 1: need to repeat for 0000214844 particles. (took 0.027076 sec)
SO iteration 2: need to repeat for 0000214844 particles. (took 0.02315 sec)
SO iteration 3: need to repeat for 0000214844 particles. (took 0.024168 sec)
SO iteration 4: need to repeat for 0000214844 particles. (took 0.023689 sec)
SO iteration 5: need to repeat for 0000214844 particles. (took 0.0239511 sec)
SO iteration 6: need to repeat for 0000214844 particles. (took 0.023643 sec)
SO iteration 7: need to repeat for 0000214844 particles. (took 0.023535 sec)
SO iteration 8: need to repeat for 0000214844 particles. (took 0.0237081 sec)
SO iteration 9: need to repeat for 0000214844 particles. (took 0.023577 sec)
SO iteration 10: need to repeat for 0000214844 particles. (took 0.0235789 sec)
SO iteration 11: need to repeat for 0000214844 particles. (took 0.023623 sec)
SO iteration 12: need to repeat for 0000214844 particles. (took 0.0236061 sec)
SO iteration 13: need to repeat for 0000214844 particles. (took 0.0236568 sec)
SO iteration 14: need to repeat for 0000214844 particles. (took 0.023628 sec)
SO iteration 15: need to repeat for 0000214812 particles. (took 0.0240009 sec)
SO iteration 16: need to repeat for 0000140164 particles. (took 0.0251901 sec)
SO iteration 17: need to repeat for 0000001896 particles. (took 0.0181561 sec)
SO iteration 18: need to repeat for 0000000054 particles. (took 0.00128698 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000576973 sec)
SO iteration 1: need to repeat for 0000214844 particles. (took 0.027281 sec)
SO iteration 2: need to repeat for 0000214844 particles. (took 0.0231969 sec)
SO iteration 3: need to repeat for 0000214844 particles. (took 0.01999 sec)
SO iteration 4: need to repeat for 0000214844 particles. (took 0.0196261 sec)
SO iteration 5: need to repeat for 0000214844 particles. (took 0.0202689 sec)
SO iteration 6: need to repeat for 0000214844 particles. (took 0.02003 sec)
SO iteration 7: need to repeat for 0000214844 particles. (took 0.020175 sec)
SO iteration 8: need to repeat for 0000214844 particles. (took 0.019747 sec)
SO iteration 9: need to repeat for 0000214844 particles. (took 0.0199029 sec)
SO iteration 10: need to repeat for 0000214844 particles. (took 0.019896 sec)
SO iteration 11: need to repeat for 0000214844 particles. (took 0.0201352 sec)
SO iteration 12: need to repeat for 0000214844 particles. (took 0.0198209 sec)
SO iteration 13: need to repeat for 0000214844 particles. (took 0.0198081 sec)
SO iteration 14: need to repeat for 0000214844 particles. (took 0.0197489 sec)
SO iteration 15: need to repeat for 0000214844 particles. (took 0.019789 sec)
SO iteration 16: need to repeat for 0000214841 particles. (took 0.019769 sec)
SO iteration 17: need to repeat for 0000200610 particles. (took 0.0197861 sec)
SO iteration 18: need to repeat for 0000019713 particles. (took 0.0193911 sec)
SO iteration 19: need to repeat for 0000000221 particles. (took 0.00540495 sec)
SO iteration 20: need to repeat for 0000000007 particles. (took 0.000644922 sec)
determining spherical overdensity masses took 2.83284 sec
finding spherical overdensity particles took 0.651958 sec
determining contamination of halos took 0.272868 sec
Global sort of Groups took 0.178634 sec
Global sort of SubGroups took 0.703398 sec
Global sort of IDs took 0.419091 sec
Writing block 0 (GLEN), n=956, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3824d
Writing block 1 (GOFF), n=956, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3824d
Writing block 2 (MTOT), n=956, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3824d
Writing block 3 (GPOS), n=956, ptype=0, dtype=1, ndim=3, bpb=4 bytes=11472d
Writing block 4 (MMEA), n=956, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3824d
Writing block 5 (RMEA), n=956, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3824d
Writing block 6 (MCRI), n=956, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3824d
Writing block 7 (RCRI), n=956, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3824d
Writing block 8 (MTOP), n=956, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3824d
Writing block 9 (RTOP), n=956, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3824d
Writing block 17 (NCON), n=956, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3824d
Writing block 18 (MCON), n=956, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3824d
Writing block 22 (NSUB), n=956, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3824d
Writing block 23 (FSUB), n=956, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3824d
Writing block 24 (SLEN), n=1811, ptype=1, dtype=0, ndim=1, bpb=4 bytes=7244d
Writing block 25 (SOFF), n=1811, ptype=1, dtype=0, ndim=1, bpb=4 bytes=7244d
Writing block 27 (MSUB), n=1811, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 28 (SPOS), n=1811, ptype=1, dtype=1, ndim=3, bpb=4 bytes=21732d
Writing block 29 (SVEL), n=1811, ptype=1, dtype=1, ndim=3, bpb=4 bytes=21732d
Writing block 30 (SCM ), n=1811, ptype=1, dtype=1, ndim=3, bpb=4 bytes=21732d
Writing block 33 (VMAX), n=1811, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 34 (RMAX), n=1811, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 35 (RHMS), n=1811, ptype=1, dtype=1, ndim=6, bpb=4 bytes=43464d
Writing block 36 (MTRH), n=1811, ptype=1, dtype=1, ndim=6, bpb=4 bytes=43464d
Writing block 37 (MBID), n=1811, ptype=1, dtype=2, ndim=1, bpb=8 bytes=14488d
Writing block 38 (GRNR), n=1811, ptype=1, dtype=0, ndim=1, bpb=4 bytes=7244d
Writing block 39 (SUBN), n=1811, ptype=1, dtype=0, ndim=1, bpb=4 bytes=7244d
Writing block 40 (SMST), n=1811, ptype=1, dtype=1, ndim=6, bpb=4 bytes=43464d
Writing block 53 (PID ), n=347957, ptype=2, dtype=2, ndim=1, bpb=8 bytes=2783656d
Writing block 54 (SLEN), n=1811, ptype=1, dtype=0, ndim=6, bpb=4 bytes=43464d
Writing block 55 (STEN), n=1811, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 56 (SKEN), n=1811, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 57 (SUEN), n=1811, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 58 (SUIT), n=1811, ptype=1, dtype=1, ndim=9, bpb=4 bytes=65196d
Writing block 59 (BHMA), n=1811, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 60 (BHMD), n=1811, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 61 (SVD ), n=1811, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 62 (SVDH), n=1811, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 63 (HMPR), n=1811, ptype=1, dtype=1, ndim=6, bpb=4 bytes=43464d
Writing block 64 (SSFR), n=1811, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 65 (SSA ), n=1811, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 66 (SSBZ), n=1811, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 67 (SSIM), n=1811, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 68 (SSPI), n=1811, ptype=4, dtype=1, ndim=3, bpb=4 bytes=21732d
Writing block 69 (GSPI), n=1811, ptype=1, dtype=1, ndim=3, bpb=4 bytes=21732d
Writing block 70 (FSPI), n=1811, ptype=5, dtype=1, ndim=3, bpb=4 bytes=21732d
Writing block 71 (SFM ), n=1811, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 72 (SFMT), n=1811, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 73 (SFME), n=1811, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 74 (SFAE), n=1811, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 75 (SFKE), n=1811, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 76 (SFTE), n=1811, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 77 (SMWP), n=1811, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 78 (SMM ), n=1811, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 79 (SMMS), n=1811, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 80 (SFZ ), n=1811, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 81 (SFZS), n=1811, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 82 (SSIA), n=1811, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 83 (SIAS), n=1811, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 84 (SMET), n=1811, ptype=5, dtype=1, ndim=9, bpb=4 bytes=65196d
Writing block 85 (SMTS), n=1811, ptype=5, dtype=1, ndim=9, bpb=4 bytes=65196d
Writing block 86 (MF1 ), n=1811, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 87 (MeF1), n=1811, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 88 (MF  ), n=1811, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 89 (MeF2), n=1811, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 90 (MFA ), n=1811, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 91 (MeFA), n=1811, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 92 (NSPI), n=1811, ptype=6, dtype=1, ndim=3, bpb=4 bytes=21732d
Writing block 93 (NFM ), n=1811, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 94 (NFMT), n=1811, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 95 (NFME), n=1811, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 96 (NFAE), n=1811, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 97 (NFKE), n=1811, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 98 (NFTE), n=1811, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 99 (SMWP), n=1811, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 100 (SMM ), n=1811, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 101 (SMMS), n=1811, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 102 (SSIA), n=1811, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 103 (SIAS), n=1811, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 104 (SMET), n=1811, ptype=6, dtype=1, ndim=9, bpb=4 bytes=65196d
Writing block 105 (SMTS), n=1811, ptype=6, dtype=1, ndim=9, bpb=4 bytes=65196d
Writing block 106 (MF1 ), n=1811, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 107 (MeF1), n=1811, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 108 (MF2 ), n=1811, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 109 (MeF2), n=1811, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 110 (MFA ), n=1811, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 111 (MeFA), n=1811, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 112 (SM  ), n=1811, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 113 (SFKE), n=1811, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 114 (SFAE), n=1811, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 115 (SMWP), n=1811, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 116 (SMM ), n=1811, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 117 (SMMS), n=1811, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 118 (SSIA), n=1811, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 119 (SIAS), n=1811, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 120 (SMET), n=1811, ptype=4, dtype=1, ndim=9, bpb=4 bytes=65196d
Writing block 121 (SMTS), n=1811, ptype=4, dtype=1, ndim=9, bpb=4 bytes=65196d
Writing block 122 (MF1 ), n=1811, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 123 (MeF1), n=1811, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 124 (MF2 ), n=1811, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 125 (MeF2), n=1811, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 126 (MFA ), n=1811, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 127 (MeFA), n=1811, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7244d
Writing block 128 (MMe5), n=956, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3824d
Writing block 129 (RMe5), n=956, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3824d
Writing block 130 (MCr5), n=956, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3824d
Writing block 131 (RCr5), n=956, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3824d
Writing block 132 (MMe2), n=956, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3824d
Writing block 133 (RMe2), n=956, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3824d
Writing block 134 (MCr2), n=956, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3824d
Writing block 135 (RCr2), n=956, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3824d
Writing block 136 (MAPT), n=1811, ptype=7, dtype=1, ndim=60, bpb=4 bytes=434640d
Writing block 137 (SAPT), n=1811, ptype=8, dtype=1, ndim=10, bpb=4 bytes=72440d
Writing block 138 (VAPT), n=1811, ptype=9, dtype=1, ndim=10, bpb=4 bytes=72440d
Writing block 139 (BEGY), n=347957, ptype=2, dtype=1, ndim=1, bpb=4 bytes=1391828d
Subgroup catalogues saved. took = 6.22637 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 7.094340e-01
 eagle_ph_key_ort: type= 2 timed by volker 5.074906e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.918408e-02
 eagle_ph_key_ort: type= 4 timed by volker 4.918408e-02
 eagle_ph_key_ort: type= 5 timed by volker 4.918408e-02
 eagle_ph_key_ort: timing parallel sort = 8.182020e-01
 eagle_fetch_elements: we are using 1935536089 bytes of memory, FreeBytes= 2419420112

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 1642.66 Mbyte (on task=0), Smallest = 1320.76 Mbyte, Average = 1333.06 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9972    1203.0112  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5346    1227.5458  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8910    1268.4369  fof_fof()/fof.c/337
   0 2975 0             Group      1.1216    1269.5585  fof_fof()/fof.c/380
   0 2976 0          SubGroup    348.5788    1618.1373  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5239    1642.6612  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 2442595 number of bytes = 781630400

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3488.44 Mbyte (on task=0), Smallest = 3166.34 Mbyte, Average = 3178.79 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9972    1203.0112  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5346    1227.5458  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8910    1268.4369  fof_fof()/fof.c/337
   0 2975 0             Group      1.1216    1269.5585  fof_fof()/fof.c/380
   0 2976 0          SubGroup    348.5788    1618.1373  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5239    1642.6612  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      9.3178    1651.9789  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      9.3178    1661.2967  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      9.3178    1670.6145  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    745.4208    2416.0353  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    745.4208    3161.4561  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    326.9849    3488.4410  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.439899e+00
 eagle_fetch_elements: we are using 1935536089 bytes of memory, FreeBytes= 2419420112
 eagle_fetch_elements: max_bytes= 504, max_elements= 1897584 number of bytes = 956382336
 eagle_ph_key_ort: timing parallel SphP exchange = 6.731033e-03
 eagle_fetch_elements: we are using 1935536089 bytes of memory, FreeBytes= 2419420112
 eagle_fetch_elements: max_bytes= 384, max_elements= 2481456 number of bytes = 952879104
 eagle_ph_key_ort: timing parallel MetP exchange = 4.808903e-04
 eagle_fetch_elements: we are using 1935536089 bytes of memory, FreeBytes= 2419420112
 eagle_fetch_elements: max_bytes= 256, max_elements= 3693771 number of bytes = 945605376
 eagle_ph_key_ort: timing parallel BHP exchange = 4.830360e-04
Sorting particle-data by peano-hilbert key took = 3.64449 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1935536089 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 2442595 number of bytes= 781630400
 eagle_ph_restore: timing parallel P exchange = 2.326466e+00
 eagle_send_elements: we are using 1935536089 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1897584 number of bytes= 956382336
 eagle_ph_restore: timing parallel SphP exchange = 6.973028e-03
 eagle_send_elements: we are using 1935536089 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2481456 number of bytes= 952879104
 eagle_ph_restore: timing parallel MetP exchange = 6.909370e-04
 eagle_send_elements: we are using 1935536089 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 3693771 number of bytes= 945605376
 eagle_ph_restore: timing parallel BHP exchange = 7.481575e-04
Restoring original order after ph key sorting took = 2.35172 sec

finished writing particle file...

Finished with SUBFIND.  (total time=922.4 sec)

Finished computing FoF groups.  (presently allocated=1203.01 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=179505
After=201545
NTopleaves= 176352  NTopnodes=201545 (space for 244687)
gravity work-load balance=1.00061   memory-balance=1.00061   SPH work-load balance=0
iter=0 exchange of 0273342528 particles (ret=0)
domain decomposition done. (took 3.80362 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.97488 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
task 16: endrun called with an error level of 124


task 16: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
task 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
task 128: endrun called with an error level of 124


task 128: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
task 160: endrun called with an error level of 124


task 160: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 176: endrun called with an error level of 124


task 176: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
task 192: endrun called with an error level of 124


task 192: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
Finished FOF, total time doing fof/subfind = 943.8 s
task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
MPI-process 0:
task 0: endrun called with an error level of 124


  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
task 0: endrun called with an error level of 124


    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.65 Mb (on task=112), Smallest =   62646.57 Mb (on task=0), Average =   62686.68 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1885.49 Mb (on task=0), Smallest =    1798.41 Mb (on task=112), Average =    1845.39 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16338.92 Mb (on task=112), Average =   16351.55 Mb
AllocMem:	 Largest =    1885.49 Mb (on task=0), Smallest =    1798.41 Mb (on task=112), Average =    1845.39 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_007_z001p716/snap_007_z001p716.0.hdf5' on task=0 (contains 17170739 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  16951661  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     21664  (tot=     0000303834) masstab=0
Type 3 (bulge):   197414  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.36949

Setting next time for line of sight file to Time_next= 0.369724

Setting next time for snipshot file to Time_next= 0.376529

Setting next time for fof output to Time_next= 0.376529
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.06868 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
Before=175097
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=175097
After=198745
NTopleaves= 173902  NTopnodes=198745 (space for 244687)
gravity work-load balance=1.00043   memory-balance=1.00043   SPH work-load balance=0
iter=0 exchange of 0273198223 particles (ret=0)
domain decomposition done. (took 9.89172 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.10306 MByte in top-level domain structure

Allocated 503.262 MByte for BH-tree, and 0.663383 Mbyte for top-leaves.  (presently allocted 1706.8 MB)

Begin Ngb-tree construction.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1752.97 Mbyte (on task=82), Smallest = 1752.91 Mbyte, Average = 1752.96 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  82 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
  82 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
  82 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
  82 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
  82 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
  82 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
  82 2972 0          TopNodes      9.8560    1202.8710  domain_allocate()/domain.c/570
  82 2973 0   DomainNodeIndex      0.6634    1203.5344  force_treeallocate()/forcetree.c/4800
  82 2974 0        Nodes_base    258.4896    1462.0240  force_treeallocate()/forcetree.c/4803
  82 2975 0     Extnodes_base    215.4080    1677.4321  force_treeallocate()/forcetree.c/4811
  82 2976 0          Nextnode     15.0614    1692.4934  force_treeallocate()/forcetree.c/4820
  82 2977 0            Father     14.3032    1706.7966  force_treeallocate()/forcetree.c/4827
  82 2978 0           Ngblist      4.0884    1710.8850  density()/density.c/690
  82 2979 0              Left      8.1768    1719.0618  density()/density.c/692
  82 2980 0             Right      8.1768    1727.2386  density()/density.c/693
  82 2981 0    DataIndexTable      7.0175    1734.2561  density()/density.c/738
  82 2982 0      DataNodeList     18.7134    1752.9696  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_1.609.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_1.737.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.8 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=180225
After=201945
NTopleaves= 176702  NTopnodes=201945 (space for 244687)
gravity work-load balance=1.00053   memory-balance=1.00053   SPH work-load balance=0
iter=0 exchange of 0272986735 particles (ret=0)
domain decomposition done. (took 4.28921 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.95657 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1203.03 MB)
Tree construction.

Start linking particles (presently allocated=1756.56 MB)
links on local processor done (took 4.60152 sec).
Marked=0035099259 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1858.16 MB) 
have done 0000901164 cross links (processed 0035099259, took 1.21398 sec)
have done 0000341839 cross links (processed 0022101689, took 1.04643 sec)
have done 0000210282 cross links (processed 0016463046, took 0.83878 sec)
have done 0000120539 cross links (processed 0009690106, took 0.820107 sec)
have done 0000065427 cross links (processed 0005044115, took 0.683313 sec)
have done 0000035774 cross links (processed 0002519830, took 0.557985 sec)
have done 0000019321 cross links (processed 0001509158, took 0.338617 sec)
have done 0000011036 cross links (processed 0000981423, took 0.28206 sec)
have done 0000006422 cross links (processed 0000588995, took 0.212364 sec)
have done 0000003223 cross links (processed 0000132672, took 0.088007 sec)
have done 0000001154 cross links (processed 0000033868, took 0.0728569 sec)
have done 0000000357 cross links (processed 0000005449, took 0.0453839 sec)
have done 0000000132 cross links (processed 0000001669, took 0.0446448 sec)
have done 0000000052 cross links (processed 0000000543, took 0.0442128 sec)
have done 0000000024 cross links (processed 0000000248, took 0.044194 sec)
have done 0000000014 cross links (processed 0000000178, took 0.044178 sec)
have done 0000000005 cross links (processed 0000000059, took 0.0443449 sec)
have done 0000000003 cross links (processed 0000000027, took 0.0440259 sec)
have done 0000000003 cross links (processed 0000000023, took 0.044071 sec)
have done 0000000001 cross links (processed 0000000008, took 0.043956 sec)
have done 0000000000 cross links (processed 0000000003, took 0.043942 sec)
Local groups found.

group finding took = 11.2973 sec
Start finding nearest dm-particle (presently allocated=1756.56 MB)
still finding nearest... (presently allocated=1846.01 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.111365 sec
compiling local group data and catalogue took = 0.735709 sec

Total number of groups with at least 32 particles: 241660
Largest group has 3657748 particles.
Total number of particles in groups: 0098153512

group properties are now allocated.. (presently allocated=1269.7 MB)
computation of group properties took = 0.0521791 sec
start global sorting of group catalogues number 7
LargestGroup = 2879.266592; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0526991 sec
Group catalogues globally sorted. took = 0.693022 sec
starting saving of group catalogue number 7
data//groups_007_z001p716
Group catalogues number 7 saved. took = 1.90366 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.712284 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.262888 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.717221 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0180957018 particles. (took 20.6089 sec)
ngb iteration 2: need to repeat for 0143028537 particles. (took 9.16717 sec)
ngb iteration 3: need to repeat for 0123597173 particles. (took 6.7694 sec)
ngb iteration 4: need to repeat for 0112031423 particles. (took 5.42281 sec)
ngb iteration 5: need to repeat for 0100604994 particles. (took 4.74952 sec)
ngb iteration 6: need to repeat for 0085256501 particles. (took 4.21258 sec)
ngb iteration 7: need to repeat for 0066112827 particles. (took 3.6379 sec)
ngb iteration 8: need to repeat for 0046722566 particles. (took 3.07741 sec)
ngb iteration 9: need to repeat for 0030537011 particles. (took 2.27825 sec)
ngb iteration 10: need to repeat for 0018826962 particles. (took 1.62458 sec)
ngb iteration 11: need to repeat for 0011148480 particles. (took 1.05847 sec)
ngb iteration 12: need to repeat for 0006433461 particles. (took 0.650439 sec)
ngb iteration 13: need to repeat for 0003642269 particles. (took 0.39623 sec)
ngb iteration 14: need to repeat for 0001958970 particles. (took 0.252894 sec)
ngb iteration 15: need to repeat for 0000923921 particles. (took 0.16834 sec)
ngb iteration 16: need to repeat for 0000425678 particles. (took 0.108623 sec)
ngb iteration 17: need to repeat for 0000197824 particles. (took 0.0771298 sec)
ngb iteration 18: need to repeat for 0000092667 particles. (took 0.0611329 sec)
ngb iteration 19: need to repeat for 0000043753 particles. (took 0.052573 sec)
ngb iteration 20: need to repeat for 0000019999 particles. (took 0.0475481 sec)
ngb iteration 21: need to repeat for 0000008782 particles. (took 0.045624 sec)
ngb iteration 22: need to repeat for 0000003747 particles. (took 0.0421591 sec)
ngb iteration 23: need to repeat for 0000001491 particles. (took 0.041244 sec)
ngb iteration 24: need to repeat for 0000000534 particles. (took 0.0406611 sec)
ngb iteration 25: need to repeat for 0000000178 particles. (took 0.0404329 sec)
ngb iteration 26: need to repeat for 0000000073 particles. (took 0.0403962 sec)
ngb iteration 27: need to repeat for 0000000030 particles. (took 0.0404382 sec)
ngb iteration 28: need to repeat for 0000000012 particles. (took 0.0404739 sec)
ngb iteration 29: need to repeat for 0000000005 particles. (took 0.0402839 sec)
ngb iteration 30: need to repeat for 0000000004 particles. (took 0.0405691 sec)
final operations ... 
density and smoothing length for species 1 took 65.1953 sec
Tree construction.
tree build took 0.714472 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.263916 sec
Tree construction.
tree build took 0.715626 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.258843 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.178087 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.90119 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.707251 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.17379 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.89381 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.181034 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.92308 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.930911 sec
saving densities took 1.66395 sec

Number of FOF halos treated with collective SubFind code = 2
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 241658 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 25696 - 45276319 

subfind_exchange()() took 1.43154 sec

collectively doing halo 1, num=7
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1694.57 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1754.12 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1754.12 Mbyte (on task=0), Smallest = 1356.37 Mbyte, Average = 1370.87 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0147    1203.0287  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5214    1227.5501  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8690    1268.4191  fof_fof()/fof.c/337
   0 2975 0             Group      1.2825    1269.7016  fof_fof()/fof.c/380
   0 2976 0          SubGroup    424.8647    1694.5662  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    1706.8255  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    1735.4320  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    1736.3771  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    1737.3105  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    1738.2439  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    1739.1773  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    1740.1146  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    1741.0519  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    1754.1196  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=141937
After=168209
NTopleaves= 147183  NTopnodes=168209 (space for 244687)
gravity work-load balance=1.00048   memory-balance=1.00048   SPH work-load balance=0
iter=0 exchange of 0003639897 particles (ret=0)
domain decomposition done. (took 0.827672 sec)
Freed 3.50089 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 2201.62 Mbyte (on task=0), Smallest = 1803.86 Mbyte, Average = 1818.37 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0147    1203.0287  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5214    1227.5501  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8690    1268.4191  fof_fof()/fof.c/337
   0 2975 0             Group      1.2825    1269.7016  fof_fof()/fof.c/380
   0 2976 0          SubGroup    424.8647    1694.5662  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.3417    1703.0329  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5615    1703.5944  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    255.6940    1959.2883  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base    213.0783    2172.3666  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9449    2187.3115  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    2201.6147  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.25913 sec  (presently allocated=2201.61 MB)
force_treebuild() took 1.40042 sec (presently allocated=2201.61 MB)
Start find_linkngb (14280 particles on task=0)
find linkngb iteration 1: need to repeat for 0003649004 particles. (took 0.261946 sec)
find linkngb iteration 2: need to repeat for 0003569931 particles. (took 0.1842 sec)
find linkngb iteration 3: need to repeat for 0003415344 particles. (took 0.126031 sec)
find linkngb iteration 4: need to repeat for 0003054901 particles. (took 0.136154 sec)
find linkngb iteration 5: need to repeat for 0002560141 particles. (took 0.119893 sec)
find linkngb iteration 6: need to repeat for 0001861614 particles. (took 0.100108 sec)
find linkngb iteration 7: need to repeat for 0001172493 particles. (took 0.07482 sec)
find linkngb iteration 8: need to repeat for 0000665491 particles. (took 0.0517399 sec)
find linkngb iteration 9: need to repeat for 0000356237 particles. (took 0.034462 sec)
find linkngb iteration 10: need to repeat for 0000184276 particles. (took 0.024976 sec)
find linkngb iteration 11: need to repeat for 0000093505 particles. (took 0.016108 sec)
find linkngb iteration 12: need to repeat for 0000020396 particles. (took 0.0138311 sec)
find linkngb iteration 13: need to repeat for 0000000266 particles. (took 0.0077281 sec)
find linkngb iteration 14: need to repeat for 0000000030 particles. (took 0.000715971 sec)
find_linkngb() took 1.15443 sec
Start finding nearest two (14280 particles on task=0)
find_nearesttwo() took 0.237003 sec (presently allocated=2202.7 MB)
parallel sort of densities done. took 0.046783 sec
building distributed linked list. (presently allocated 2202.56 MB)
identification of primary candidates took 95.0746 sec
adding background as candidate took 0.158675 sec
establishing of rank order took 30.9613 sec  (p=3657748, grouplen=3657748) presently allocated 2202.56 MB

total number of subhalo candidates=15868

number of subhalo candidates that can be done independently=14011.
(Largest size is 2563, finding them took 0.00460196 sec)
particles are marked (took 19.5132)
independent subhalos are assembled on individual CPUs for unbinding (0.146308 sec, (presently allocated=2202.56 MB)
unbinding of independent ones took 0.04334 sec
particles have returned to their original processor (0.192805 sec, presently allocated 2202.56 MB)

number of subhalo candidates that can be done independently=1678.
(Largest size is 9330, finding them took 0.692218 sec)
particles are marked (took 12.5621)
independent subhalos are assembled on individual CPUs for unbinding (0.149181 sec, (presently allocated=2202.56 MB)
unbinding of independent ones took 0.280511 sec
particles have returned to their original processor (0.195576 sec, presently allocated 2202.56 MB)

number of subhalo candidates that can be done independently=159.
(Largest size is 22607, finding them took 0.787457 sec)
particles are marked (took 10.8291)
independent subhalos are assembled on individual CPUs for unbinding (0.154795 sec, (presently allocated=2202.56 MB)
unbinding of independent ones took 0.668266 sec
particles have returned to their original processor (0.208757 sec, presently allocated 2202.56 MB)

number of subhalo candidates that can be done independently=16.
(Largest size is 193985, finding them took 0.583048 sec)
particles are marked (took 8.17216)
independent subhalos are assembled on individual CPUs for unbinding (0.145571 sec, (presently allocated=2202.56 MB)
unbinding of independent ones took 0.372494 sec
particles have returned to their original processor (0.196081 sec, presently allocated 2202.56 MB)

number of subhalo candidates that can be done independently=2.
(Largest size is 193985, finding them took 0.38461 sec)
particles are marked (took 8.49162)
independent subhalos are assembled on individual CPUs for unbinding (0.153327 sec, (presently allocated=2202.56 MB)
unbinding of independent ones took 3.1076 sec
particles have returned to their original processor (0.215207 sec, presently allocated 2202.56 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 193985, finding them took 0.38428 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=193985 ... maximum alloacted 2202.62 MB
took 9.32953 sec
collective unbinding of nr=1 (2) of length=3657748 ... maximum alloacted 2202.62 MB
took 63.3751 sec

the collective unbinding of remaining halos took 79.5723 sec

found 1166 bound substructures in FoF group of length 3657748
determination of parent subhalo took 0.038064 sec (presently allocated 2202.62 MB)
determining substructure properties took 74.1192 sec (presently allocated 2202.62 MB)

collectively doing halo 2, num=7
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1694.57 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1754.12 MB)
Before=146297
After=170721
NTopleaves= 149381  NTopnodes=170721 (space for 244687)
gravity work-load balance=1.00056   memory-balance=1.00056   SPH work-load balance=0
iter=0 exchange of 0003458804 particles (ret=0)
domain decomposition done. (took 0.847341 sec)
Freed 3.38589 MByte in top-level domain structure
coldomain_Decomposition() took 1.2703 sec  (presently allocated=2202.18 MB)
force_treebuild() took 1.41826 sec (presently allocated=2202.18 MB)
Start find_linkngb (13561 particles on task=0)
find linkngb iteration 1: need to repeat for 0003462529 particles. (took 0.242394 sec)
find linkngb iteration 2: need to repeat for 0003387233 particles. (took 0.158825 sec)
find linkngb iteration 3: need to repeat for 0003241420 particles. (took 0.112685 sec)
find linkngb iteration 4: need to repeat for 0002901171 particles. (took 0.139963 sec)
find linkngb iteration 5: need to repeat for 0002429657 particles. (took 0.113061 sec)
find linkngb iteration 6: need to repeat for 0001765751 particles. (took 0.0929341 sec)
find linkngb iteration 7: need to repeat for 0001111501 particles. (took 0.0701389 sec)
find linkngb iteration 8: need to repeat for 0000631632 particles. (took 0.0488141 sec)
find linkngb iteration 9: need to repeat for 0000338253 particles. (took 0.0322051 sec)
find linkngb iteration 10: need to repeat for 0000175171 particles. (took 0.0217741 sec)
find linkngb iteration 11: need to repeat for 0000088898 particles. (took 0.0155261 sec)
find linkngb iteration 12: need to repeat for 0000019265 particles. (took 0.011888 sec)
find linkngb iteration 13: need to repeat for 0000000302 particles. (took 0.00715995 sec)
find linkngb iteration 14: need to repeat for 0000000048 particles. (took 0.000515938 sec)
find linkngb iteration 15: need to repeat for 0000000007 particles. (took 0.000379801 sec)
find_linkngb() took 1.06909 sec
Start finding nearest two (13561 particles on task=0)
find_nearesttwo() took 0.218136 sec (presently allocated=2203.21 MB)
parallel sort of densities done. took 0.047786 sec
building distributed linked list. (presently allocated 2203.08 MB)
identification of primary candidates took 96.8426 sec
adding background as candidate took 0.159461 sec
establishing of rank order took 28.5553 sec  (p=3471221, grouplen=3471221) presently allocated 2203.08 MB

total number of subhalo candidates=13880

number of subhalo candidates that can be done independently=12427.
(Largest size is 2410, finding them took 0.004107 sec)
particles are marked (took 16.914)
independent subhalos are assembled on individual CPUs for unbinding (0.145997 sec, (presently allocated=2203.08 MB)
unbinding of independent ones took 0.048126 sec
particles have returned to their original processor (0.19216 sec, presently allocated 2203.08 MB)

number of subhalo candidates that can be done independently=1308.
(Largest size is 14370, finding them took 0.706255 sec)
particles are marked (took 10.9942)
independent subhalos are assembled on individual CPUs for unbinding (0.149 sec, (presently allocated=2203.08 MB)
unbinding of independent ones took 0.376457 sec
particles have returned to their original processor (0.195792 sec, presently allocated 2203.08 MB)

number of subhalo candidates that can be done independently=133.
(Largest size is 40987, finding them took 0.673428 sec)
particles are marked (took 11.4267)
independent subhalos are assembled on individual CPUs for unbinding (0.159494 sec, (presently allocated=2203.08 MB)
unbinding of independent ones took 1.20329 sec
particles have returned to their original processor (0.211766 sec, presently allocated 2203.08 MB)

number of subhalo candidates that can be done independently=9.
(Largest size is 890561, finding them took 0.391581 sec)
too big candidates, I do the rest collectively

collective unbinding of nr=0 (12) of length=42421 ... maximum alloacted 2203.13 MB
took 4.0758 sec
collective unbinding of nr=1 (12) of length=13492 ... maximum alloacted 2203.13 MB
took 2.111 sec
collective unbinding of nr=2 (12) of length=1099 ... maximum alloacted 2203.13 MB
took 1.97813 sec
collective unbinding of nr=3 (12) of length=890561 ... maximum alloacted 2203.13 MB
took 15.8957 sec
collective unbinding of nr=4 (12) of length=39475 ... maximum alloacted 2203.13 MB
took 1.85625 sec
collective unbinding of nr=5 (12) of length=1231 ... maximum alloacted 2203.13 MB
took 1.64233 sec
collective unbinding of nr=6 (12) of length=1988 ... maximum alloacted 2203.13 MB
took 3.64642 sec
collective unbinding of nr=7 (12) of length=4929 ... maximum alloacted 2203.13 MB
took 4.63504 sec
collective unbinding of nr=8 (12) of length=3290 ... maximum alloacted 2203.13 MB
took 1.52577 sec
collective unbinding of nr=9 (12) of length=75232 ... maximum alloacted 2203.13 MB
took 5.53409 sec
collective unbinding of nr=10 (12) of length=1529 ... maximum alloacted 2203.13 MB
took 2.11278 sec
collective unbinding of nr=11 (12) of length=3471221 ... maximum alloacted 2203.13 MB
took 74.5 sec

the collective unbinding of remaining halos took 125.5 sec

found 1205 bound substructures in FoF group of length 3471221
determination of parent subhalo took 0.0395782 sec (presently allocated 2203.13 MB)
determining substructure properties took 81.058 sec (presently allocated 2203.13 MB)
processing of collective halos took 748.915 sec
sort of local particles()() took 0.7331 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 228.936 sec

Task 234: testing particles ...
Task 224: testing particles ...
Task 236: testing particles ...
Task 163: testing particles ...
Task 241: testing particles ...
Task 177: testing particles ...
Task 220: testing particles ...
Task 161: testing particles ...
Task 173: testing particles ...
Task 206: testing particles ...
Task 209: testing particles ...
Task 247: testing particles ...
Task 255: testing particles ...
Task 213: testing particles ...
Task 245: testing particles ...
Task 157: testing particles ...
Task 250: testing particles ...
Task 235: testing particles ...
Task 140: testing particles ...
Task 172: testing particles ...
Task 129: testing particles ...
Task 186: testing particles ...
Task 145: testing particles ...
Task 198: testing particles ...
Task 96: testing particles ...
Task 201: testing particles ...
unsorting of local particles()() took 0.552784 sec
Task 0: testing particles ...
Task 228: testing particles ...
Task 194: testing particles ...
Task 184: testing particles ...
Task 248: testing particles ...
Task 180: testing particles ...
Task 192: testing particles ...
Task 175: testing particles ...
Task 1: testing particles ...
Task 106: testing particles ...
Task 104: testing particles ...
Task 109: testing particles ...
Task 150: testing particles ...
Task 88: testing particles ...
Task 205: testing particles ...
Task 207: testing particles ...
Task 211: testing particles ...
Task 214: testing particles ...
Task 252: testing particles ...
Task 125: testing particles ...
Task 78: testing particles ...
Task 237: testing particles ...
Task 79: testing particles ...
Task 131: testing particles ...
Task 126: testing particles ...
Task 253: testing particles ...
Task 123: testing particles ...
Task 167: testing particles ...
Task 135: testing particles ...
Task 105: testing particles ...
Task 179: testing particles ...
Task 239: testing particles ...
Task 159: testing particles ...
Task 221: testing particles ...
Task 112: testing particles ...
Task 219: testing particles ...
Task 158: testing particles ...
Task 188: testing particles ...
Task 218: testing particles ...
Task 90: testing particles ...
Task 146: testing particles ...
Task 203: testing particles ...
Task 243: testing particles ...
Task 133: testing particles ...
Task 171: testing particles ...
Task 115: testing particles ...
Task 152: testing particles ...
Task 166: testing particles ...
Task 216: testing particles ...
Task 254: testing particles ...
Task 208: testing particles ...
Task 139: testing particles ...
Task 227: testing particles ...
Task 244: testing particles ...
Task 165: testing particles ...
Task 246: testing particles ...
Task 185: testing particles ...
Task 225: testing particles ...
Task 182: testing particles ...
Task 202: testing particles ...
Task 169: testing particles ...
Task 193: testing particles ...
Task 155: testing particles ...
Task 183: testing particles ...
Task 199: testing particles ...
Task 143: testing particles ...
Task 196: testing particles ...
Task 210: testing particles ...
Task 142: testing particles ...
Task 148: testing particles ...
Task 91: testing particles ...
Task 138: testing particles ...
Task 114: testing particles ...
Task 200: testing particles ...
Task 100: testing particles ...
Task 168: testing particles ...
Task 222: testing particles ...
Task 151: testing particles ...
Task 181: testing particles ...
Task 59: testing particles ...
Task 197: testing particles ...
Task 217: testing particles ...
Task 77: testing particles ...
Task 82: testing particles ...
Task 249: testing particles ...
Task 223: testing particles ...
Task 170: testing particles ...
Task 83: testing particles ...
Task 97: testing particles ...
Task 93: testing particles ...
Task 191: testing particles ...
Task 195: testing particles ...
Task 189: testing particles ...
Task 71: testing particles ...
Task 89: testing particles ...
Task 76: testing particles ...
Task 120: testing particles ...
Task 108: testing particles ...
Task 66: testing particles ...
Task 69: testing particles ...
Task 176: testing particles ...
Task 160: testing particles ...
Task 240: testing particles ...
Task 144: testing particles ...
Task 162: testing particles ...
Task 134: testing particles ...
Task 118: testing particles ...
Task 156: testing particles ...
Task 232: testing particles ...
Task 238: testing particles ...
Task 178: testing particles ...
Task 230: testing particles ...
Task 92: testing particles ...
Task 124: testing particles ...
Task 229: testing particles ...
Task 242: testing particles ...
Task 251: testing particles ...
Task 215: testing particles ...
Task 86: testing particles ...
Task 111: testing particles ...
Task 231: testing particles ...
Task 226: testing particles ...
Task 98: testing particles ...
Task 47: testing particles ...
Task 87: testing particles ...
Task 153: testing particles ...
Task 154: testing particles ...
Task 187: testing particles ...
Task 68: testing particles ...
Task 212: testing particles ...
Task 101: testing particles ...
Task 48: testing particles ...
Task 85: testing particles ...
Task 94: testing particles ...
Task 116: testing particles ...
Task 233: testing particles ...
Task 52: testing particles ...
Task 121: testing particles ...
Task 54: testing particles ...
Task 149: testing particles ...
Task 137: testing particles ...
Task 103: testing particles ...
Task 164: testing particles ...
Task 204: testing particles ...
Task 58: testing particles ...
Task 110: testing particles ...
Task 75: testing particles ...
Task 62: testing particles ...
Task 67: testing particles ...
Task 33: testing particles ...
Task 122: testing particles ...
Task 99: testing particles ...
Task 84: testing particles ...
Task 102: testing particles ...
Task 41: testing particles ...
Task 132: testing particles ...
Task 141: testing particles ...
Task 28: testing particles ...
Task 32: testing particles ...
Task 55: testing particles ...
Task 130: testing particles ...
Task 70: testing particles ...
Task 128: testing particles ...
Task 49: testing particles ...
Task 127: testing particles ...
Task 45: testing particles ...
Task 61: testing particles ...
Task 39: testing particles ...
Task 190: testing particles ...
Task 57: testing particles ...
Task 136: testing particles ...
Task 72: testing particles ...
Task 113: testing particles ...
Task 42: testing particles ...
Task 74: testing particles ...
Task 81: testing particles ...
Task 60: testing particles ...
Task 65: testing particles ...
Task 107: testing particles ...
Task 117: testing particles ...
Task 119: testing particles ...
Task 174: testing particles ...
Task 44: testing particles ...
Task 40: testing particles ...
Task 147: testing particles ...
Task 51: testing particles ...
Task 34: testing particles ...
Task 56: testing particles ...
Task 53: testing particles ...
Task 37: testing particles ...
Task 21: testing particles ...
Task 35: testing particles ...
Task 64: testing particles ...
Task 95: testing particles ...
Task 50: testing particles ...
Task 29: testing particles ...
Task 31: testing particles ...
Task 73: testing particles ...
Task 80: testing particles ...
Task 63: testing particles ...
Task 30: testing particles ...
Task 46: testing particles ...
Task 27: testing particles ...
Task 23: testing particles ...
Task 36: testing particles ...
Task 19: testing particles ...
Task 26: testing particles ...
Task 43: testing particles ...
Task 20: testing particles ...
Task 25: testing particles ...
Task 24: testing particles ...
Task 18: testing particles ...
Task 15: testing particles ...
Task 14: testing particles ...
Task 38: testing particles ...
Task 22: testing particles ...
Task 12: testing particles ...
Task 13: testing particles ...
Task 17: testing particles ...
Task 11: testing particles ...
Task 16: testing particles ...
Task 10: testing particles ...
Task 9: testing particles ...
Task 5: testing particles ...
Task 7: testing particles ...
Task 6: testing particles ...
Task 8: testing particles ...
Task 4: testing particles ...
Task 3: testing particles ...
Task 2: testing particles ...
subfind_exchange() (for return to original CPU)  took 2.60655 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1694.57 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1754.12 MB)
Before=185193
After=205713
NTopleaves= 179999  NTopnodes=205713 (space for 244687)
gravity work-load balance=1.00036   memory-balance=1.00036   SPH work-load balance=0
iter=0 exchange of 0273340010 particles (ret=0)
domain decomposition done. (took 4.44673 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.78409 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000210222 particles. (took 0.0293539 sec)
SO iteration 2: need to repeat for 0000210222 particles. (took 0.024179 sec)
SO iteration 3: need to repeat for 0000210222 particles. (took 0.0253241 sec)
SO iteration 4: need to repeat for 0000210222 particles. (took 0.0257599 sec)
SO iteration 5: need to repeat for 0000210222 particles. (took 0.025655 sec)
SO iteration 6: need to repeat for 0000210222 particles. (took 0.0259652 sec)
SO iteration 7: need to repeat for 0000210222 particles. (took 0.025794 sec)
SO iteration 8: need to repeat for 0000210222 particles. (took 0.0258451 sec)
SO iteration 9: need to repeat for 0000210222 particles. (took 0.0257852 sec)
SO iteration 10: need to repeat for 0000210222 particles. (took 0.0258629 sec)
SO iteration 11: need to repeat for 0000210222 particles. (took 0.0264609 sec)
SO iteration 12: need to repeat for 0000210222 particles. (took 0.0258541 sec)
SO iteration 13: need to repeat for 0000210222 particles. (took 0.0258529 sec)
SO iteration 14: need to repeat for 0000210222 particles. (took 0.025836 sec)
SO iteration 15: need to repeat for 0000209936 particles. (took 0.026053 sec)
SO iteration 16: need to repeat for 0000001923 particles. (took 0.0260651 sec)
SO iteration 17: need to repeat for 0000000059 particles. (took 0.00157785 sec)
SO iteration 18: need to repeat for 0000000002 particles. (took 0.000833035 sec)
SO iteration 1: need to repeat for 0000210222 particles. (took 0.026953 sec)
SO iteration 2: need to repeat for 0000210222 particles. (took 0.0231571 sec)
SO iteration 3: need to repeat for 0000210222 particles. (took 0.024246 sec)
SO iteration 4: need to repeat for 0000210222 particles. (took 0.0237038 sec)
SO iteration 5: need to repeat for 0000210222 particles. (took 0.023627 sec)
SO iteration 6: need to repeat for 0000210222 particles. (took 0.0237019 sec)
SO iteration 7: need to repeat for 0000210222 particles. (took 0.024591 sec)
SO iteration 8: need to repeat for 0000210222 particles. (took 0.0235858 sec)
SO iteration 9: need to repeat for 0000210222 particles. (took 0.0237098 sec)
SO iteration 10: need to repeat for 0000210222 particles. (took 0.0237589 sec)
SO iteration 11: need to repeat for 0000210222 particles. (took 0.0237031 sec)
SO iteration 12: need to repeat for 0000210222 particles. (took 0.023602 sec)
SO iteration 13: need to repeat for 0000210222 particles. (took 0.0240381 sec)
SO iteration 14: need to repeat for 0000210222 particles. (took 0.0246489 sec)
SO iteration 15: need to repeat for 0000210175 particles. (took 0.0259061 sec)
SO iteration 16: need to repeat for 0000092398 particles. (took 0.0246489 sec)
SO iteration 17: need to repeat for 0000001116 particles. (took 0.0148559 sec)
SO iteration 18: need to repeat for 0000000046 particles. (took 0.00150394 sec)
SO iteration 19: need to repeat for 0000000002 particles. (took 0.000978947 sec)
SO iteration 1: need to repeat for 0000210222 particles. (took 0.0288031 sec)
SO iteration 2: need to repeat for 0000210222 particles. (took 0.023453 sec)
SO iteration 3: need to repeat for 0000210222 particles. (took 0.0203519 sec)
SO iteration 4: need to repeat for 0000210222 particles. (took 0.020519 sec)
SO iteration 5: need to repeat for 0000210222 particles. (took 0.020231 sec)
SO iteration 6: need to repeat for 0000210222 particles. (took 0.0203118 sec)
SO iteration 7: need to repeat for 0000210222 particles. (took 0.0208609 sec)
SO iteration 8: need to repeat for 0000210222 particles. (took 0.0202529 sec)
SO iteration 9: need to repeat for 0000210222 particles. (took 0.020334 sec)
SO iteration 10: need to repeat for 0000210222 particles. (took 0.020154 sec)
SO iteration 11: need to repeat for 0000210222 particles. (took 0.0208609 sec)
SO iteration 12: need to repeat for 0000210222 particles. (took 0.0203559 sec)
SO iteration 13: need to repeat for 0000210222 particles. (took 0.0205119 sec)
SO iteration 14: need to repeat for 0000210222 particles. (took 0.0206809 sec)
SO iteration 15: need to repeat for 0000210221 particles. (took 0.0206468 sec)
SO iteration 16: need to repeat for 0000210218 particles. (took 0.0204289 sec)
SO iteration 17: need to repeat for 0000169625 particles. (took 0.0208921 sec)
SO iteration 18: need to repeat for 0000009936 particles. (took 0.0193431 sec)
SO iteration 19: need to repeat for 0000000162 particles. (took 0.00348592 sec)
SO iteration 20: need to repeat for 0000000009 particles. (took 0.000752926 sec)
SO iteration 21: need to repeat for 0000000001 particles. (took 0.00067091 sec)
SO iteration 1: need to repeat for 0000210222 particles. (took 0.0266099 sec)
SO iteration 2: need to repeat for 0000210222 particles. (took 0.0249019 sec)
SO iteration 3: need to repeat for 0000210222 particles. (took 0.0259011 sec)
SO iteration 4: need to repeat for 0000210222 particles. (took 0.025984 sec)
SO iteration 5: need to repeat for 0000210222 particles. (took 0.026541 sec)
SO iteration 6: need to repeat for 0000210222 particles. (took 0.0260971 sec)
SO iteration 7: need to repeat for 0000210222 particles. (took 0.0264201 sec)
SO iteration 8: need to repeat for 0000210222 particles. (took 0.0262299 sec)
SO iteration 9: need to repeat for 0000210222 particles. (took 0.026228 sec)
SO iteration 10: need to repeat for 0000210222 particles. (took 0.026206 sec)
SO iteration 11: need to repeat for 0000210222 particles. (took 0.0259862 sec)
SO iteration 12: need to repeat for 0000210222 particles. (took 0.0261061 sec)
SO iteration 13: need to repeat for 0000210222 particles. (took 0.0265889 sec)
SO iteration 14: need to repeat for 0000210222 particles. (took 0.0261991 sec)
SO iteration 15: need to repeat for 0000209900 particles. (took 0.0261071 sec)
SO iteration 16: need to repeat for 0000001383 particles. (took 0.026083 sec)
SO iteration 17: need to repeat for 0000000051 particles. (took 0.00163388 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000880003 sec)
SO iteration 1: need to repeat for 0000210222 particles. (took 0.0267801 sec)
SO iteration 2: need to repeat for 0000210222 particles. (took 0.0232601 sec)
SO iteration 3: need to repeat for 0000210222 particles. (took 0.025121 sec)
SO iteration 4: need to repeat for 0000210222 particles. (took 0.02546 sec)
SO iteration 5: need to repeat for 0000210222 particles. (took 0.025517 sec)
SO iteration 6: need to repeat for 0000210222 particles. (took 0.025574 sec)
SO iteration 7: need to repeat for 0000210222 particles. (took 0.0254118 sec)
SO iteration 8: need to repeat for 0000210222 particles. (took 0.0254898 sec)
SO iteration 9: need to repeat for 0000210222 particles. (took 0.0255048 sec)
SO iteration 10: need to repeat for 0000210222 particles. (took 0.0254691 sec)
SO iteration 11: need to repeat for 0000210222 particles. (took 0.025635 sec)
SO iteration 12: need to repeat for 0000210222 particles. (took 0.0253999 sec)
SO iteration 13: need to repeat for 0000210222 particles. (took 0.025388 sec)
SO iteration 14: need to repeat for 0000210222 particles. (took 0.0253451 sec)
SO iteration 15: need to repeat for 0000209985 particles. (took 0.025372 sec)
SO iteration 16: need to repeat for 0000003241 particles. (took 0.0253351 sec)
SO iteration 17: need to repeat for 0000000085 particles. (took 0.00190592 sec)
SO iteration 18: need to repeat for 0000000003 particles. (took 0.000597 sec)
SO iteration 1: need to repeat for 0000210222 particles. (took 0.026679 sec)
SO iteration 2: need to repeat for 0000210222 particles. (took 0.0229599 sec)
SO iteration 3: need to repeat for 0000210222 particles. (took 0.023535 sec)
SO iteration 4: need to repeat for 0000210222 particles. (took 0.0233099 sec)
SO iteration 5: need to repeat for 0000210222 particles. (took 0.023067 sec)
SO iteration 6: need to repeat for 0000210222 particles. (took 0.023272 sec)
SO iteration 7: need to repeat for 0000210222 particles. (took 0.0232229 sec)
SO iteration 8: need to repeat for 0000210222 particles. (took 0.0231538 sec)
SO iteration 9: need to repeat for 0000210222 particles. (took 0.0231538 sec)
SO iteration 10: need to repeat for 0000210222 particles. (took 0.0235932 sec)
SO iteration 11: need to repeat for 0000210222 particles. (took 0.02316 sec)
SO iteration 12: need to repeat for 0000210222 particles. (took 0.0235801 sec)
SO iteration 13: need to repeat for 0000210222 particles. (took 0.023473 sec)
SO iteration 14: need to repeat for 0000210222 particles. (took 0.02332 sec)
SO iteration 15: need to repeat for 0000210185 particles. (took 0.0232689 sec)
SO iteration 16: need to repeat for 0000133371 particles. (took 0.023308 sec)
SO iteration 17: need to repeat for 0000001696 particles. (took 0.0170829 sec)
SO iteration 18: need to repeat for 0000000064 particles. (took 0.00178695 sec)
SO iteration 19: need to repeat for 0000000003 particles. (took 0.00105715 sec)
SO iteration 1: need to repeat for 0000210222 particles. (took 0.026967 sec)
SO iteration 2: need to repeat for 0000210222 particles. (took 0.03599 sec)
SO iteration 3: need to repeat for 0000210222 particles. (took 0.0276039 sec)
SO iteration 4: need to repeat for 0000210222 particles. (took 0.019803 sec)
SO iteration 5: need to repeat for 0000210222 particles. (took 0.021034 sec)
SO iteration 6: need to repeat for 0000210222 particles. (took 0.020092 sec)
SO iteration 7: need to repeat for 0000210222 particles. (took 0.0440061 sec)
SO iteration 8: need to repeat for 0000210222 particles. (took 0.0220139 sec)
SO iteration 9: need to repeat for 0000210222 particles. (took 0.0199969 sec)
SO iteration 10: need to repeat for 0000210222 particles. (took 0.019892 sec)
SO iteration 11: need to repeat for 0000210222 particles. (took 0.0199509 sec)
SO iteration 12: need to repeat for 0000210222 particles. (took 0.019876 sec)
SO iteration 13: need to repeat for 0000210222 particles. (took 0.0199261 sec)
SO iteration 14: need to repeat for 0000210222 particles. (took 0.0199268 sec)
SO iteration 15: need to repeat for 0000210221 particles. (took 0.019892 sec)
SO iteration 16: need to repeat for 0000210218 particles. (took 0.0198631 sec)
SO iteration 17: need to repeat for 0000191172 particles. (took 0.0200598 sec)
SO iteration 18: need to repeat for 0000015139 particles. (took 0.0185959 sec)
SO iteration 19: need to repeat for 0000000213 particles. (took 0.00446606 sec)
SO iteration 20: need to repeat for 0000000010 particles. (took 0.000614882 sec)
SO iteration 21: need to repeat for 0000000001 particles. (took 0.000550985 sec)
determining spherical overdensity masses took 2.86236 sec
finding spherical overdensity particles took 0.646364 sec
determining contamination of halos took 0.284162 sec
Global sort of Groups took 0.166631 sec
Global sort of SubGroups took 0.630818 sec
Global sort of IDs took 0.440434 sec
Writing block 0 (GLEN), n=944, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3776d
Writing block 1 (GOFF), n=944, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3776d
Writing block 2 (MTOT), n=944, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3776d
Writing block 3 (GPOS), n=944, ptype=0, dtype=1, ndim=3, bpb=4 bytes=11328d
Writing block 4 (MMEA), n=944, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3776d
Writing block 5 (RMEA), n=944, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3776d
Writing block 6 (MCRI), n=944, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3776d
Writing block 7 (RCRI), n=944, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3776d
Writing block 8 (MTOP), n=944, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3776d
Writing block 9 (RTOP), n=944, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3776d
Writing block 17 (NCON), n=944, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3776d
Writing block 18 (MCON), n=944, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3776d
Writing block 22 (NSUB), n=944, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3776d
Writing block 23 (FSUB), n=944, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3776d
Writing block 24 (SLEN), n=2163, ptype=1, dtype=0, ndim=1, bpb=4 bytes=8652d
Writing block 25 (SOFF), n=2163, ptype=1, dtype=0, ndim=1, bpb=4 bytes=8652d
Writing block 27 (MSUB), n=2163, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 28 (SPOS), n=2163, ptype=1, dtype=1, ndim=3, bpb=4 bytes=25956d
Writing block 29 (SVEL), n=2163, ptype=1, dtype=1, ndim=3, bpb=4 bytes=25956d
Writing block 30 (SCM ), n=2163, ptype=1, dtype=1, ndim=3, bpb=4 bytes=25956d
Writing block 33 (VMAX), n=2163, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 34 (RMAX), n=2163, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 35 (RHMS), n=2163, ptype=1, dtype=1, ndim=6, bpb=4 bytes=51912d
Writing block 36 (MTRH), n=2163, ptype=1, dtype=1, ndim=6, bpb=4 bytes=51912d
Writing block 37 (MBID), n=2163, ptype=1, dtype=2, ndim=1, bpb=8 bytes=17304d
Writing block 38 (GRNR), n=2163, ptype=1, dtype=0, ndim=1, bpb=4 bytes=8652d
Writing block 39 (SUBN), n=2163, ptype=1, dtype=0, ndim=1, bpb=4 bytes=8652d
Writing block 40 (SMST), n=2163, ptype=1, dtype=1, ndim=6, bpb=4 bytes=51912d
Writing block 53 (PID ), n=347662, ptype=2, dtype=2, ndim=1, bpb=8 bytes=2781296d
Writing block 54 (SLEN), n=2163, ptype=1, dtype=0, ndim=6, bpb=4 bytes=51912d
Writing block 55 (STEN), n=2163, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 56 (SKEN), n=2163, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 57 (SUEN), n=2163, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 58 (SUIT), n=2163, ptype=1, dtype=1, ndim=9, bpb=4 bytes=77868d
Writing block 59 (BHMA), n=2163, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 60 (BHMD), n=2163, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 61 (SVD ), n=2163, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 62 (SVDH), n=2163, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 63 (HMPR), n=2163, ptype=1, dtype=1, ndim=6, bpb=4 bytes=51912d
Writing block 64 (SSFR), n=2163, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 65 (SSA ), n=2163, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 66 (SSBZ), n=2163, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 67 (SSIM), n=2163, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 68 (SSPI), n=2163, ptype=4, dtype=1, ndim=3, bpb=4 bytes=25956d
Writing block 69 (GSPI), n=2163, ptype=1, dtype=1, ndim=3, bpb=4 bytes=25956d
Writing block 70 (FSPI), n=2163, ptype=5, dtype=1, ndim=3, bpb=4 bytes=25956d
Writing block 71 (SFM ), n=2163, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 72 (SFMT), n=2163, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 73 (SFME), n=2163, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 74 (SFAE), n=2163, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 75 (SFKE), n=2163, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 76 (SFTE), n=2163, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 77 (SMWP), n=2163, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 78 (SMM ), n=2163, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 79 (SMMS), n=2163, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 80 (SFZ ), n=2163, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 81 (SFZS), n=2163, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 82 (SSIA), n=2163, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 83 (SIAS), n=2163, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 84 (SMET), n=2163, ptype=5, dtype=1, ndim=9, bpb=4 bytes=77868d
Writing block 85 (SMTS), n=2163, ptype=5, dtype=1, ndim=9, bpb=4 bytes=77868d
Writing block 86 (MF1 ), n=2163, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 87 (MeF1), n=2163, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 88 (MF  ), n=2163, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 89 (MeF2), n=2163, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 90 (MFA ), n=2163, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 91 (MeFA), n=2163, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 92 (NSPI), n=2163, ptype=6, dtype=1, ndim=3, bpb=4 bytes=25956d
Writing block 93 (NFM ), n=2163, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 94 (NFMT), n=2163, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 95 (NFME), n=2163, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 96 (NFAE), n=2163, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 97 (NFKE), n=2163, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 98 (NFTE), n=2163, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 99 (SMWP), n=2163, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 100 (SMM ), n=2163, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 101 (SMMS), n=2163, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 102 (SSIA), n=2163, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 103 (SIAS), n=2163, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 104 (SMET), n=2163, ptype=6, dtype=1, ndim=9, bpb=4 bytes=77868d
Writing block 105 (SMTS), n=2163, ptype=6, dtype=1, ndim=9, bpb=4 bytes=77868d
Writing block 106 (MF1 ), n=2163, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 107 (MeF1), n=2163, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 108 (MF2 ), n=2163, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 109 (MeF2), n=2163, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 110 (MFA ), n=2163, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 111 (MeFA), n=2163, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 112 (SM  ), n=2163, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 113 (SFKE), n=2163, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 114 (SFAE), n=2163, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 115 (SMWP), n=2163, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 116 (SMM ), n=2163, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 117 (SMMS), n=2163, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 118 (SSIA), n=2163, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 119 (SIAS), n=2163, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 120 (SMET), n=2163, ptype=4, dtype=1, ndim=9, bpb=4 bytes=77868d
Writing block 121 (SMTS), n=2163, ptype=4, dtype=1, ndim=9, bpb=4 bytes=77868d
Writing block 122 (MF1 ), n=2163, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 123 (MeF1), n=2163, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 124 (MF2 ), n=2163, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 125 (MeF2), n=2163, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 126 (MFA ), n=2163, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 127 (MeFA), n=2163, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8652d
Writing block 128 (MMe5), n=944, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3776d
Writing block 129 (RMe5), n=944, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3776d
Writing block 130 (MCr5), n=944, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3776d
Writing block 131 (RCr5), n=944, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3776d
Writing block 132 (MMe2), n=944, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3776d
Writing block 133 (RMe2), n=944, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3776d
Writing block 134 (MCr2), n=944, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3776d
Writing block 135 (RCr2), n=944, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3776d
Writing block 136 (MAPT), n=2163, ptype=7, dtype=1, ndim=60, bpb=4 bytes=519120d
Writing block 137 (SAPT), n=2163, ptype=8, dtype=1, ndim=10, bpb=4 bytes=86520d
Writing block 138 (VAPT), n=2163, ptype=9, dtype=1, ndim=10, bpb=4 bytes=86520d
Writing block 139 (BEGY), n=347662, ptype=2, dtype=1, ndim=1, bpb=4 bytes=1390648d
Subgroup catalogues saved. took = 6.44229 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 7.182751e-01
 eagle_ph_key_ort: type= 2 timed by volker 3.937602e-02
 eagle_ph_key_ort: type= 3 timed by volker 7.210016e-03
 eagle_ph_key_ort: type= 4 timed by volker 7.210016e-03
 eagle_ph_key_ort: type= 5 timed by volker 7.210016e-03
 eagle_ph_key_ort: timing parallel sort = 8.094509e-01
 eagle_fetch_elements: we are using 1871421632 bytes of memory, FreeBytes= 2339277040

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 1719.09 Mbyte (on task=0), Smallest = 1321.34 Mbyte, Average = 1335.84 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0147    1203.0287  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5214    1227.5501  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8690    1268.4191  fof_fof()/fof.c/337
   0 2975 0             Group      1.2825    1269.7016  fof_fof()/fof.c/380
   0 2976 0          SubGroup    424.8647    1694.5662  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5253    1719.0916  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 2344303 number of bytes = 750176960

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3503.78 Mbyte (on task=0), Smallest = 3106 Mbyte, Average = 3120.45 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0147    1203.0287  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5214    1227.5501  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8690    1268.4191  fof_fof()/fof.c/337
   0 2975 0             Group      1.2825    1269.7016  fof_fof()/fof.c/380
   0 2976 0          SubGroup    424.8647    1694.5662  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5253    1719.0916  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      8.9428    1728.0344  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      8.9428    1736.9772  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      8.9428    1745.9200  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    715.4245    2461.3445  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    715.4245    3176.7690  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    327.0044    3503.7734  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.460430e+00
 eagle_fetch_elements: we are using 1871421632 bytes of memory, FreeBytes= 2339277040
 eagle_fetch_elements: max_bytes= 504, max_elements= 1834727 number of bytes = 924702408
 eagle_ph_key_ort: timing parallel SphP exchange = 2.552986e-03
 eagle_fetch_elements: we are using 1871421632 bytes of memory, FreeBytes= 2339277040
 eagle_fetch_elements: max_bytes= 384, max_elements= 2399258 number of bytes = 921315072
 eagle_ph_key_ort: timing parallel MetP exchange = 4.820824e-04
 eagle_fetch_elements: we are using 1871421632 bytes of memory, FreeBytes= 2339277040
 eagle_fetch_elements: max_bytes= 256, max_elements= 3571415 number of bytes = 914282240
 eagle_ph_key_ort: timing parallel BHP exchange = 4.398823e-04
Sorting particle-data by peano-hilbert key took = 3.65334 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1871421632 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 2344303 number of bytes= 750176960
 eagle_ph_restore: timing parallel P exchange = 2.314537e+00
 eagle_send_elements: we are using 1871421632 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1834727 number of bytes= 924702408
 eagle_ph_restore: timing parallel SphP exchange = 3.443956e-03
 eagle_send_elements: we are using 1871421632 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2399258 number of bytes= 921315072
 eagle_ph_restore: timing parallel MetP exchange = 6.668568e-04
 eagle_send_elements: we are using 1871421632 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 3571415 number of bytes= 914282240
 eagle_ph_restore: timing parallel BHP exchange = 7.150173e-04
Restoring original order after ph key sorting took = 2.33571 sec

finished writing particle file...

Finished with SUBFIND.  (total time=1120.86 sec)

Finished computing FoF groups.  (presently allocated=1203.03 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=179577
After=201953
NTopleaves= 176709  NTopnodes=201953 (space for 244687)
gravity work-load balance=1.00052   memory-balance=1.00052   SPH work-load balance=0
iter=0 exchange of 0273297498 particles (ret=0)
domain decomposition done. (took 4.23983 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.95621 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 16: endrun called with an error level of 124


task 16: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
task 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 128: endrun called with an error level of 124


task 128: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 160: endrun called with an error level of 124


task 160: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 176: endrun called with an error level of 124


task 176: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
task 192: endrun called with an error level of 124


task 192: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
Finished FOF, total time doing fof/subfind = 1147.15 s
task 0: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.46 Mb (on task=112), Smallest =   62645.66 Mb (on task=0), Average =   62686.72 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1886.40 Mb (on task=0), Smallest =    1798.60 Mb (on task=112), Average =    1845.35 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16339.08 Mb (on task=112), Average =   16351.57 Mb
AllocMem:	 Largest =    1886.40 Mb (on task=0), Smallest =    1798.60 Mb (on task=112), Average =    1845.35 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_008_z001p493/snap_008_z001p493.0.hdf5' on task=0 (contains 17436048 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  17251704  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     16867  (tot=     0000303834) masstab=0
Type 3 (bulge):   167477  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.407848

Setting next time for line of sight file to Time_next= 0.404362

Setting next time for snipshot file to Time_next= 0.409274

Setting next time for fof output to Time_next= 0.409274
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.06449 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
Before=178897
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=178897
After=200545
NTopleaves= 175477  NTopnodes=200545 (space for 244687)
gravity work-load balance=1.0004   memory-balance=1.0004   SPH work-load balance=0
iter=0 exchange of 0273265585 particles (ret=0)
domain decomposition done. (took 10.2515 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.02066 MByte in top-level domain structure

Allocated 503.571 MByte for BH-tree, and 0.669392 Mbyte for top-leaves.  (presently allocted 1707.2 MB)

Begin Ngb-tree construction.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1753.38 Mbyte (on task=100), Smallest = 1753.31 Mbyte, Average = 1753.37 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 100 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
 100 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
 100 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
 100 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
 100 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
 100 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
 100 2972 0          TopNodes      9.9452    1202.9603  domain_allocate()/domain.c/570
 100 2973 0   DomainNodeIndex      0.6694    1203.6297  force_treeallocate()/forcetree.c/4800
 100 2974 0        Nodes_base    258.6544    1462.2841  force_treeallocate()/forcetree.c/4803
 100 2975 0     Extnodes_base    215.5453    1677.8295  force_treeallocate()/forcetree.c/4811
 100 2976 0          Nextnode     15.0682    1692.8977  force_treeallocate()/forcetree.c/4820
 100 2977 0            Father     14.3032    1707.2009  force_treeallocate()/forcetree.c/4827
 100 2978 0           Ngblist      4.0883    1711.2892  density()/density.c/690
 100 2979 0              Left      8.1766    1719.4657  density()/density.c/692
 100 2980 0             Right      8.1766    1727.6423  density()/density.c/693
 100 2981 0    DataIndexTable      7.0175    1734.6598  density()/density.c/738
 100 2982 0      DataNodeList     18.7134    1753.3733  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_1.487.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_1.609.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1707.2 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=181849
After=202809
NTopleaves= 177458  NTopnodes=202809 (space for 244687)
gravity work-load balance=1.00059   memory-balance=1.00059   SPH work-load balance=0
iter=0 exchange of 0272870533 particles (ret=0)
domain decomposition done. (took 3.8117 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.91702 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1203.07 MB)
Tree construction.

Start linking particles (presently allocated=1756.76 MB)
links on local processor done (took 4.62493 sec).
Marked=0037762253 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1858.37 MB) 
have done 0000924892 cross links (processed 0037762253, took 1.45389 sec)
have done 0000358885 cross links (processed 0024773904, took 1.18085 sec)
have done 0000229218 cross links (processed 0019083206, took 1.12698 sec)
have done 0000137137 cross links (processed 0011773193, took 0.826627 sec)
have done 0000076027 cross links (processed 0006134116, took 0.541023 sec)
have done 0000042377 cross links (processed 0003595176, took 0.341295 sec)
have done 0000024505 cross links (processed 0002721028, took 0.799593 sec)
have done 0000014132 cross links (processed 0001307728, took 0.425838 sec)
have done 0000008279 cross links (processed 0000496134, took 0.190228 sec)
have done 0000004662 cross links (processed 0000159292, took 0.0965831 sec)
have done 0000002375 cross links (processed 0000093134, took 0.0932329 sec)
have done 0000001055 cross links (processed 0000023572, took 0.055136 sec)
have done 0000000390 cross links (processed 0000005778, took 0.0453892 sec)
have done 0000000119 cross links (processed 0000001785, took 0.0447669 sec)
have done 0000000040 cross links (processed 0000000677, took 0.044795 sec)
have done 0000000016 cross links (processed 0000000410, took 0.0448699 sec)
have done 0000000005 cross links (processed 0000000076, took 0.04444 sec)
have done 0000000002 cross links (processed 0000000014, took 0.0444689 sec)
have done 0000000001 cross links (processed 0000000005, took 0.044636 sec)
have done 0000000000 cross links (processed 0000000003, took 0.0444598 sec)
Local groups found.

group finding took = 12.2037 sec
Start finding nearest dm-particle (presently allocated=1756.76 MB)
still finding nearest... (presently allocated=1846.22 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.110366 sec
compiling local group data and catalogue took = 0.706829 sec

Total number of groups with at least 32 particles: 237471
Largest group has 4814138 particles.
Total number of particles in groups: 0103708704

group properties are now allocated.. (presently allocated=1269.53 MB)
computation of group properties took = 0.0560491 sec
start global sorting of group catalogues number 8
LargestGroup = 3789.541191; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0526762 sec
Group catalogues globally sorted. took = 0.724407 sec
starting saving of group catalogue number 8
data//groups_008_z001p493
Group catalogues number 8 saved. took = 1.90436 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.701156 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.282575 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.694288 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0182173633 particles. (took 20.4751 sec)
ngb iteration 2: need to repeat for 0143634990 particles. (took 9.16818 sec)
ngb iteration 3: need to repeat for 0124083498 particles. (took 6.77807 sec)
ngb iteration 4: need to repeat for 0112435121 particles. (took 5.47161 sec)
ngb iteration 5: need to repeat for 0100908028 particles. (took 4.77572 sec)
ngb iteration 6: need to repeat for 0085412099 particles. (took 4.22455 sec)
ngb iteration 7: need to repeat for 0066095810 particles. (took 3.63588 sec)
ngb iteration 8: need to repeat for 0046606017 particles. (took 3.01599 sec)
ngb iteration 9: need to repeat for 0030392049 particles. (took 2.28167 sec)
ngb iteration 10: need to repeat for 0018701307 particles. (took 1.60767 sec)
ngb iteration 11: need to repeat for 0011064346 particles. (took 1.0572 sec)
ngb iteration 12: need to repeat for 0006381013 particles. (took 0.653886 sec)
ngb iteration 13: need to repeat for 0003616999 particles. (took 0.395438 sec)
ngb iteration 14: need to repeat for 0001949043 particles. (took 0.253552 sec)
ngb iteration 15: need to repeat for 0000918145 particles. (took 0.167419 sec)
ngb iteration 16: need to repeat for 0000425554 particles. (took 0.10667 sec)
ngb iteration 17: need to repeat for 0000199146 particles. (took 0.0791221 sec)
ngb iteration 18: need to repeat for 0000094020 particles. (took 0.0612171 sec)
ngb iteration 19: need to repeat for 0000044226 particles. (took 0.0530419 sec)
ngb iteration 20: need to repeat for 0000020537 particles. (took 0.048594 sec)
ngb iteration 21: need to repeat for 0000009280 particles. (took 0.0446858 sec)
ngb iteration 22: need to repeat for 0000004030 particles. (took 0.0443201 sec)
ngb iteration 23: need to repeat for 0000001599 particles. (took 0.044255 sec)
ngb iteration 24: need to repeat for 0000000585 particles. (took 0.0418708 sec)
ngb iteration 25: need to repeat for 0000000185 particles. (took 0.0424469 sec)
ngb iteration 26: need to repeat for 0000000049 particles. (took 0.0417221 sec)
ngb iteration 27: need to repeat for 0000000017 particles. (took 0.0421419 sec)
ngb iteration 28: need to repeat for 0000000003 particles. (took 0.0422339 sec)
final operations ... 
density and smoothing length for species 1 took 65.0193 sec
Tree construction.
tree build took 0.703292 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.283935 sec
Tree construction.
tree build took 0.696085 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.281504 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.166025 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 2.03995 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.709431 sec
density() of species 1 took 0 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.185761 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.92816 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.164695 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.97786 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.932359 sec
saving densities took 1.58064 sec

Number of FOF halos treated with collective SubFind code = 2
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 237469 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 26656 - 47976381 

subfind_exchange()() took 1.49583 sec

collectively doing halo 1, num=8
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1820.17 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1879.72 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1879.72 Mbyte (on task=0), Smallest = 1356.46 Mbyte, Average = 1373.25 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0575    1203.0715  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5266    1227.5981  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8776    1268.4758  fof_fof()/fof.c/337
   0 2975 0             Group      1.0542    1269.5300  fof_fof()/fof.c/380
   0 2976 0          SubGroup    550.6372    1820.1671  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    1832.4264  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    1861.0328  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    1861.9780  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    1862.9114  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    1863.8448  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    1864.7782  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    1865.7155  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    1866.6528  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    1879.7205  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=137873
After=165041
NTopleaves= 144411  NTopnodes=165041 (space for 244687)
gravity work-load balance=1.00047   memory-balance=1.00047   SPH work-load balance=0
iter=0 exchange of 0004793849 particles (ret=0)
domain decomposition done. (took 0.906931 sec)
Freed 3.6459 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 2326.51 Mbyte (on task=0), Smallest = 1803.24 Mbyte, Average = 1820.04 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0575    1203.0715  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5266    1227.5981  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8776    1268.4758  fof_fof()/fof.c/337
   0 2975 0             Group      1.0542    1269.5300  fof_fof()/fof.c/380
   0 2976 0          SubGroup    550.6372    1820.1671  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.1846    1828.4767  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5509    1829.0276  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    255.4039    2084.4315  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base    212.8366    2297.2681  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9328    2312.2009  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    2326.5041  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.34134 sec  (presently allocated=2326.5 MB)
force_treebuild() took 1.73466 sec (presently allocated=2326.5 MB)
Start find_linkngb (18798 particles on task=0)
find linkngb iteration 1: need to repeat for 0004784318 particles. (took 0.353786 sec)
find linkngb iteration 2: need to repeat for 0004630151 particles. (took 0.23244 sec)
find linkngb iteration 3: need to repeat for 0004424849 particles. (took 0.160731 sec)
find linkngb iteration 4: need to repeat for 0003937468 particles. (took 0.182354 sec)
find linkngb iteration 5: need to repeat for 0003291241 particles. (took 0.157569 sec)
find linkngb iteration 6: need to repeat for 0002391189 particles. (took 0.131988 sec)
find linkngb iteration 7: need to repeat for 0001503799 particles. (took 0.0974689 sec)
find linkngb iteration 8: need to repeat for 0000855502 particles. (took 0.0675249 sec)
find linkngb iteration 9: need to repeat for 0000457541 particles. (took 0.0426769 sec)
find linkngb iteration 10: need to repeat for 0000236610 particles. (took 0.0293291 sec)
find linkngb iteration 11: need to repeat for 0000120220 particles. (took 0.0187521 sec)
find linkngb iteration 12: need to repeat for 0000025880 particles. (took 0.013649 sec)
find linkngb iteration 13: need to repeat for 0000000371 particles. (took 0.00793099 sec)
find linkngb iteration 14: need to repeat for 0000000055 particles. (took 0.000555992 sec)
find linkngb iteration 15: need to repeat for 0000000012 particles. (took 0.000404119 sec)
find linkngb iteration 16: need to repeat for 0000000001 particles. (took 0.000341892 sec)
find_linkngb() took 1.49874 sec
Start finding nearest two (18798 particles on task=0)
find_nearesttwo() took 0.306885 sec (presently allocated=2327.94 MB)
parallel sort of densities done. took 0.0500631 sec
building distributed linked list. (presently allocated 2327.75 MB)
identification of primary candidates took 126.094 sec
adding background as candidate took 0.158502 sec
establishing of rank order took 38.8651 sec  (p=4814138, grouplen=4814138) presently allocated 2327.75 MB

total number of subhalo candidates=19975

number of subhalo candidates that can be done independently=17745.
(Largest size is 2211, finding them took 0.00566006 sec)
particles are marked (took 24.2912)
independent subhalos are assembled on individual CPUs for unbinding (0.157144 sec, (presently allocated=2327.75 MB)
unbinding of independent ones took 0.0401978 sec
particles have returned to their original processor (0.216092 sec, presently allocated 2327.75 MB)

number of subhalo candidates that can be done independently=2021.
(Largest size is 16587, finding them took 0.927851 sec)
particles are marked (took 16.6978)
independent subhalos are assembled on individual CPUs for unbinding (0.158652 sec, (presently allocated=2327.75 MB)
unbinding of independent ones took 0.301398 sec
particles have returned to their original processor (0.218277 sec, presently allocated 2327.75 MB)

number of subhalo candidates that can be done independently=189.
(Largest size is 40758, finding them took 1.1052 sec)
particles are marked (took 13.9137)
independent subhalos are assembled on individual CPUs for unbinding (0.159156 sec, (presently allocated=2327.75 MB)
unbinding of independent ones took 1.39738 sec
particles have returned to their original processor (0.223455 sec, presently allocated 2327.75 MB)

number of subhalo candidates that can be done independently=17.
(Largest size is 516285, finding them took 0.65528 sec)
particles are marked (took 11.466)
independent subhalos are assembled on individual CPUs for unbinding (0.153122 sec, (presently allocated=2327.75 MB)
unbinding of independent ones took 1.88459 sec
particles have returned to their original processor (0.21847 sec, presently allocated 2327.75 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 516285, finding them took 0.512707 sec)
particles are marked (took 11.2916)
independent subhalos are assembled on individual CPUs for unbinding (0.151788 sec, (presently allocated=2327.75 MB)
unbinding of independent ones took 4.13659 sec
particles have returned to their original processor (0.229749 sec, presently allocated 2327.75 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 516285, finding them took 0.512713 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=516285 ... maximum alloacted 2327.82 MB
took 8.50926 sec
collective unbinding of nr=1 (2) of length=4814138 ... maximum alloacted 2327.82 MB
took 90.8788 sec

the collective unbinding of remaining halos took 108.03 sec

found 1809 bound substructures in FoF group of length 4814138
determination of parent subhalo took 0.0403008 sec (presently allocated 2327.82 MB)
determining substructure properties took 106.297 sec (presently allocated 2327.82 MB)

collectively doing halo 2, num=8
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1820.17 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1879.72 MB)
Before=136769
After=162793
NTopleaves= 142444  NTopnodes=162793 (space for 244687)
gravity work-load balance=1.00048   memory-balance=1.00048   SPH work-load balance=0
iter=0 exchange of 0003940444 particles (ret=0)
domain decomposition done. (took 0.884292 sec)
Freed 3.74881 MByte in top-level domain structure
coldomain_Decomposition() took 1.31043 sec  (presently allocated=2326 MB)
force_treebuild() took 1.71827 sec (presently allocated=2326 MB)
Start find_linkngb (15451 particles on task=0)
find linkngb iteration 1: need to repeat for 0003940131 particles. (took 0.292509 sec)
find linkngb iteration 2: need to repeat for 0003846285 particles. (took 0.189865 sec)
find linkngb iteration 3: need to repeat for 0003678665 particles. (took 0.131581 sec)
find linkngb iteration 4: need to repeat for 0003285359 particles. (took 0.151661 sec)
find linkngb iteration 5: need to repeat for 0002750596 particles. (took 0.130107 sec)
find linkngb iteration 6: need to repeat for 0001997704 particles. (took 0.109512 sec)
find linkngb iteration 7: need to repeat for 0001257402 particles. (took 0.0811529 sec)
find linkngb iteration 8: need to repeat for 0000714336 particles. (took 0.0560272 sec)
find linkngb iteration 9: need to repeat for 0000382539 particles. (took 0.0361421 sec)
find linkngb iteration 10: need to repeat for 0000199219 particles. (took 0.023927 sec)
find linkngb iteration 11: need to repeat for 0000101174 particles. (took 0.0166409 sec)
find linkngb iteration 12: need to repeat for 0000022030 particles. (took 0.0125899 sec)
find linkngb iteration 13: need to repeat for 0000000325 particles. (took 0.00768399 sec)
find linkngb iteration 14: need to repeat for 0000000038 particles. (took 0.000546217 sec)
find linkngb iteration 15: need to repeat for 0000000007 particles. (took 0.000400066 sec)
find linkngb iteration 16: need to repeat for 0000000003 particles. (took 0.000355959 sec)
find_linkngb() took 1.24157 sec
Start finding nearest two (15451 particles on task=0)
find_nearesttwo() took 0.25486 sec (presently allocated=2327.18 MB)
parallel sort of densities done. took 0.0464349 sec
building distributed linked list. (presently allocated 2327.02 MB)
identification of primary candidates took 99.3232 sec
adding background as candidate took 0.159492 sec
establishing of rank order took 32.8455 sec  (p=3954331, grouplen=3954331) presently allocated 2327.02 MB

total number of subhalo candidates=17665

number of subhalo candidates that can be done independently=15622.
(Largest size is 1623, finding them took 0.00486279 sec)
particles are marked (took 21.1653)
independent subhalos are assembled on individual CPUs for unbinding (0.154502 sec, (presently allocated=2327.02 MB)
unbinding of independent ones took 0.028491 sec
particles have returned to their original processor (0.209514 sec, presently allocated 2327.02 MB)

number of subhalo candidates that can be done independently=1864.
(Largest size is 8231, finding them took 0.918881 sec)
particles are marked (took 14.1797)
independent subhalos are assembled on individual CPUs for unbinding (0.158611 sec, (presently allocated=2327.02 MB)
unbinding of independent ones took 0.175784 sec
particles have returned to their original processor (0.217736 sec, presently allocated 2327.02 MB)

number of subhalo candidates that can be done independently=161.
(Largest size is 33319, finding them took 0.914948 sec)
particles are marked (took 11.8028)
independent subhalos are assembled on individual CPUs for unbinding (0.158953 sec, (presently allocated=2327.02 MB)
unbinding of independent ones took 0.833058 sec
particles have returned to their original processor (0.22626 sec, presently allocated 2327.02 MB)

number of subhalo candidates that can be done independently=17.
(Largest size is 55621, finding them took 0.695197 sec)
particles are marked (took 9.30192)
independent subhalos are assembled on individual CPUs for unbinding (0.148477 sec, (presently allocated=2327.02 MB)
unbinding of independent ones took 2.10841 sec
particles have returned to their original processor (0.212337 sec, presently allocated 2327.02 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 3954331, finding them took 0.508459 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=3954331 ... maximum alloacted 2327.08 MB
took 75.7523 sec

the collective unbinding of remaining halos took 83.3475 sec

found 1269 bound substructures in FoF group of length 3954331
determination of parent subhalo took 0.0369749 sec (presently allocated 2327.08 MB)
determining substructure properties took 76.2767 sec (presently allocated 2327.08 MB)
processing of collective halos took 852.561 sec
sort of local particles()() took 0.588361 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 424.384 sec

unsorting of local particles()() took 0.466052 sec
Task 0: testing particles ...
Task 254: testing particles ...
Task 183: testing particles ...
Task 145: testing particles ...
Task 1: testing particles ...
Task 242: testing particles ...
Task 141: testing particles ...
Task 131: testing particles ...
Task 238: testing particles ...
Task 214: testing particles ...
Task 237: testing particles ...
Task 187: testing particles ...
Task 216: testing particles ...
Task 235: testing particles ...
Task 124: testing particles ...
Task 240: testing particles ...
Task 182: testing particles ...
Task 198: testing particles ...
Task 165: testing particles ...
Task 110: testing particles ...
Task 228: testing particles ...
Task 204: testing particles ...
Task 232: testing particles ...
Task 252: testing particles ...
Task 246: testing particles ...
Task 167: testing particles ...
Task 140: testing particles ...
Task 156: testing particles ...
Task 203: testing particles ...
Task 251: testing particles ...
Task 192: testing particles ...
Task 114: testing particles ...
Task 218: testing particles ...
Task 227: testing particles ...
Task 170: testing particles ...
Task 225: testing particles ...
Task 245: testing particles ...
Task 115: testing particles ...
Task 195: testing particles ...
Task 164: testing particles ...
Task 210: testing particles ...
Task 221: testing particles ...
Task 243: testing particles ...
Task 129: testing particles ...
Task 178: testing particles ...
Task 200: testing particles ...
Task 112: testing particles ...
Task 211: testing particles ...
Task 197: testing particles ...
Task 173: testing particles ...
Task 224: testing particles ...
Task 148: testing particles ...
Task 189: testing particles ...
Task 101: testing particles ...
Task 116: testing particles ...
Task 132: testing particles ...
Task 92: testing particles ...
Task 255: testing particles ...
Task 190: testing particles ...
Task 139: testing particles ...
Task 149: testing particles ...
Task 159: testing particles ...
Task 130: testing particles ...
Task 206: testing particles ...
Task 108: testing particles ...
Task 127: testing particles ...
Task 171: testing particles ...
Task 191: testing particles ...
Task 219: testing particles ...
Task 208: testing particles ...
Task 81: testing particles ...
Task 93: testing particles ...
Task 174: testing particles ...
Task 105: testing particles ...
Task 196: testing particles ...
Task 158: testing particles ...
Task 209: testing particles ...
Task 106: testing particles ...
Task 233: testing particles ...
Task 177: testing particles ...
Task 223: testing particles ...
Task 194: testing particles ...
Task 146: testing particles ...
Task 147: testing particles ...
Task 212: testing particles ...
Task 128: testing particles ...
Task 75: testing particles ...
Task 126: testing particles ...
Task 234: testing particles ...
Task 122: testing particles ...
Task 188: testing particles ...
Task 135: testing particles ...
Task 202: testing particles ...
Task 78: testing particles ...
Task 184: testing particles ...
Task 157: testing particles ...
Task 120: testing particles ...
Task 109: testing particles ...
Task 249: testing particles ...
Task 59: testing particles ...
Task 99: testing particles ...
Task 247: testing particles ...
Task 172: testing particles ...
Task 231: testing particles ...
Task 68: testing particles ...
Task 236: testing particles ...
Task 248: testing particles ...
Task 83: testing particles ...
Task 69: testing particles ...
Task 138: testing particles ...
Task 97: testing particles ...
Task 160: testing particles ...
Task 193: testing particles ...
Task 162: testing particles ...
Task 154: testing particles ...
Task 213: testing particles ...
Task 169: testing particles ...
Task 185: testing particles ...
Task 199: testing particles ...
Task 207: testing particles ...
Task 239: testing particles ...
Task 142: testing particles ...
Task 220: testing particles ...
Task 186: testing particles ...
Task 153: testing particles ...
Task 117: testing particles ...
Task 244: testing particles ...
Task 54: testing particles ...
Task 217: testing particles ...
Task 123: testing particles ...
Task 226: testing particles ...
Task 121: testing particles ...
Task 96: testing particles ...
Task 179: testing particles ...
Task 250: testing particles ...
Task 67: testing particles ...
Task 201: testing particles ...
Task 155: testing particles ...
Task 180: testing particles ...
Task 241: testing particles ...
Task 111: testing particles ...
Task 61: testing particles ...
Task 90: testing particles ...
Task 181: testing particles ...
Task 205: testing particles ...
Task 82: testing particles ...
Task 215: testing particles ...
Task 125: testing particles ...
Task 77: testing particles ...
Task 152: testing particles ...
Task 163: testing particles ...
Task 253: testing particles ...
Task 107: testing particles ...
Task 176: testing particles ...
Task 137: testing particles ...
Task 88: testing particles ...
Task 98: testing particles ...
Task 175: testing particles ...
Task 51: testing particles ...
Task 150: testing particles ...
Task 95: testing particles ...
Task 70: testing particles ...
Task 74: testing particles ...
Task 46: testing particles ...
Task 45: testing particles ...
Task 161: testing particles ...
Task 104: testing particles ...
Task 113: testing particles ...
Task 136: testing particles ...
Task 103: testing particles ...
Task 65: testing particles ...
Task 229: testing particles ...
Task 89: testing particles ...
Task 57: testing particles ...
Task 56: testing particles ...
Task 144: testing particles ...
Task 80: testing particles ...
Task 73: testing particles ...
Task 39: testing particles ...
Task 166: testing particles ...
Task 118: testing particles ...
Task 87: testing particles ...
Task 230: testing particles ...
Task 55: testing particles ...
Task 143: testing particles ...
Task 47: testing particles ...
Task 168: testing particles ...
Task 119: testing particles ...
Task 222: testing particles ...
Task 102: testing particles ...
Task 76: testing particles ...
Task 133: testing particles ...
Task 44: testing particles ...
Task 134: testing particles ...
Task 100: testing particles ...
Task 94: testing particles ...
Task 66: testing particles ...
Task 30: testing particles ...
Task 27: testing particles ...
Task 72: testing particles ...
Task 33: testing particles ...
Task 64: testing particles ...
Task 58: testing particles ...
Task 86: testing particles ...
Task 71: testing particles ...
Task 37: testing particles ...
Task 91: testing particles ...
Task 151: testing particles ...
Task 63: testing particles ...
Task 60: testing particles ...
Task 50: testing particles ...
Task 53: testing particles ...
Task 49: testing particles ...
Task 79: testing particles ...
Task 48: testing particles ...
Task 62: testing particles ...
Task 36: testing particles ...
Task 84: testing particles ...
Task 29: testing particles ...
Task 31: testing particles ...
Task 32: testing particles ...
Task 85: testing particles ...
Task 42: testing particles ...
Task 38: testing particles ...
Task 43: testing particles ...
Task 35: testing particles ...
Task 23: testing particles ...
Task 34: testing particles ...
Task 22: testing particles ...
Task 52: testing particles ...
Task 40: testing particles ...
Task 41: testing particles ...
Task 25: testing particles ...
Task 24: testing particles ...
Task 26: testing particles ...
Task 16: testing particles ...
Task 28: testing particles ...
Task 13: testing particles ...
Task 21: testing particles ...
Task 20: testing particles ...
Task 15: testing particles ...
Task 18: testing particles ...
Task 17: testing particles ...
Task 14: testing particles ...
Task 19: testing particles ...
Task 11: testing particles ...
Task 12: testing particles ...
Task 10: testing particles ...
Task 9: testing particles ...
Task 5: testing particles ...
Task 8: testing particles ...
Task 7: testing particles ...
Task 6: testing particles ...
Task 4: testing particles ...
Task 3: testing particles ...
Task 2: testing particles ...
subfind_exchange() (for return to original CPU)  took 2.98828 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1820.17 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1879.72 MB)
Before=187249
After=207377
NTopleaves= 181455  NTopnodes=207377 (space for 244687)
gravity work-load balance=1.00032   memory-balance=1.00032   SPH work-load balance=0
iter=0 exchange of 0273028423 particles (ret=0)
domain decomposition done. (took 4.02813 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.70792 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000205111 particles. (took 0.0270889 sec)
SO iteration 2: need to repeat for 0000205111 particles. (took 0.0235901 sec)
SO iteration 3: need to repeat for 0000205111 particles. (took 0.0250769 sec)
SO iteration 4: need to repeat for 0000205111 particles. (took 0.025557 sec)
SO iteration 5: need to repeat for 0000205111 particles. (took 0.0257292 sec)
SO iteration 6: need to repeat for 0000205111 particles. (took 0.0259221 sec)
SO iteration 7: need to repeat for 0000205111 particles. (took 0.0259039 sec)
SO iteration 8: need to repeat for 0000205111 particles. (took 0.02595 sec)
SO iteration 9: need to repeat for 0000205111 particles. (took 0.02771 sec)
SO iteration 10: need to repeat for 0000205111 particles. (took 0.025969 sec)
SO iteration 11: need to repeat for 0000205111 particles. (took 0.025861 sec)
SO iteration 12: need to repeat for 0000205111 particles. (took 0.025996 sec)
SO iteration 13: need to repeat for 0000205111 particles. (took 0.0259359 sec)
SO iteration 14: need to repeat for 0000205111 particles. (took 0.0258362 sec)
SO iteration 15: need to repeat for 0000204789 particles. (took 0.025799 sec)
SO iteration 16: need to repeat for 0000001598 particles. (took 0.0255742 sec)
SO iteration 17: need to repeat for 0000000049 particles. (took 0.00132704 sec)
SO iteration 1: need to repeat for 0000205111 particles. (took 0.026377 sec)
SO iteration 2: need to repeat for 0000205111 particles. (took 0.022661 sec)
SO iteration 3: need to repeat for 0000205111 particles. (took 0.024312 sec)
SO iteration 4: need to repeat for 0000205111 particles. (took 0.023195 sec)
SO iteration 5: need to repeat for 0000205111 particles. (took 0.02332 sec)
SO iteration 6: need to repeat for 0000205111 particles. (took 0.0231352 sec)
SO iteration 7: need to repeat for 0000205111 particles. (took 0.02319 sec)
SO iteration 8: need to repeat for 0000205111 particles. (took 0.023145 sec)
SO iteration 9: need to repeat for 0000205111 particles. (took 0.0232899 sec)
SO iteration 10: need to repeat for 0000205111 particles. (took 0.0232601 sec)
SO iteration 11: need to repeat for 0000205111 particles. (took 0.023442 sec)
SO iteration 12: need to repeat for 0000205111 particles. (took 0.023298 sec)
SO iteration 13: need to repeat for 0000205111 particles. (took 0.023375 sec)
SO iteration 14: need to repeat for 0000205111 particles. (took 0.0232098 sec)
SO iteration 15: need to repeat for 0000205056 particles. (took 0.0231869 sec)
SO iteration 16: need to repeat for 0000079302 particles. (took 0.0233941 sec)
SO iteration 17: need to repeat for 0000000973 particles. (took 0.0128782 sec)
SO iteration 18: need to repeat for 0000000043 particles. (took 0.00100803 sec)
SO iteration 19: need to repeat for 0000000003 particles. (took 0.00057888 sec)
SO iteration 1: need to repeat for 0000205111 particles. (took 0.026325 sec)
SO iteration 2: need to repeat for 0000205111 particles. (took 0.022542 sec)
SO iteration 3: need to repeat for 0000205111 particles. (took 0.0201321 sec)
SO iteration 4: need to repeat for 0000205111 particles. (took 0.020277 sec)
SO iteration 5: need to repeat for 0000205111 particles. (took 0.0209739 sec)
SO iteration 6: need to repeat for 0000205111 particles. (took 0.01998 sec)
SO iteration 7: need to repeat for 0000205111 particles. (took 0.020138 sec)
SO iteration 8: need to repeat for 0000205111 particles. (took 0.0199461 sec)
SO iteration 9: need to repeat for 0000205111 particles. (took 0.0199931 sec)
SO iteration 10: need to repeat for 0000205111 particles. (took 0.0199652 sec)
SO iteration 11: need to repeat for 0000205111 particles. (took 0.0199261 sec)
SO iteration 12: need to repeat for 0000205111 particles. (took 0.0200288 sec)
SO iteration 13: need to repeat for 0000205111 particles. (took 0.0199568 sec)
SO iteration 14: need to repeat for 0000205111 particles. (took 0.0199759 sec)
SO iteration 15: need to repeat for 0000205110 particles. (took 0.02004 sec)
SO iteration 16: need to repeat for 0000205102 particles. (took 0.0203519 sec)
SO iteration 17: need to repeat for 0000150867 particles. (took 0.0200009 sec)
SO iteration 18: need to repeat for 0000006972 particles. (took 0.0162752 sec)
SO iteration 19: need to repeat for 0000000117 particles. (took 0.00287223 sec)
SO iteration 20: need to repeat for 0000000006 particles. (took 0.000570059 sec)
SO iteration 1: need to repeat for 0000205111 particles. (took 0.0263109 sec)
SO iteration 2: need to repeat for 0000205111 particles. (took 0.0253379 sec)
SO iteration 3: need to repeat for 0000205111 particles. (took 0.0257862 sec)
SO iteration 4: need to repeat for 0000205111 particles. (took 0.026017 sec)
SO iteration 5: need to repeat for 0000205111 particles. (took 0.0280762 sec)
SO iteration 6: need to repeat for 0000205111 particles. (took 0.0260639 sec)
SO iteration 7: need to repeat for 0000205111 particles. (took 0.0260029 sec)
SO iteration 8: need to repeat for 0000205111 particles. (took 0.0259831 sec)
SO iteration 9: need to repeat for 0000205111 particles. (took 0.0259008 sec)
SO iteration 10: need to repeat for 0000205111 particles. (took 0.026047 sec)
SO iteration 11: need to repeat for 0000205111 particles. (took 0.0262849 sec)
SO iteration 12: need to repeat for 0000205111 particles. (took 0.026005 sec)
SO iteration 13: need to repeat for 0000205111 particles. (took 0.0259681 sec)
SO iteration 14: need to repeat for 0000205111 particles. (took 0.026041 sec)
SO iteration 15: need to repeat for 0000204744 particles. (took 0.026047 sec)
SO iteration 16: need to repeat for 0000001266 particles. (took 0.0258319 sec)
SO iteration 17: need to repeat for 0000000044 particles. (took 0.00120711 sec)
SO iteration 1: need to repeat for 0000205111 particles. (took 0.0263121 sec)
SO iteration 2: need to repeat for 0000205111 particles. (took 0.023082 sec)
SO iteration 3: need to repeat for 0000205111 particles. (took 0.024765 sec)
SO iteration 4: need to repeat for 0000205111 particles. (took 0.025435 sec)
SO iteration 5: need to repeat for 0000205111 particles. (took 0.0254738 sec)
SO iteration 6: need to repeat for 0000205111 particles. (took 0.0255909 sec)
SO iteration 7: need to repeat for 0000205111 particles. (took 0.025506 sec)
SO iteration 8: need to repeat for 0000205111 particles. (took 0.0258119 sec)
SO iteration 9: need to repeat for 0000205111 particles. (took 0.025455 sec)
SO iteration 10: need to repeat for 0000205111 particles. (took 0.0254118 sec)
SO iteration 11: need to repeat for 0000205111 particles. (took 0.0256178 sec)
SO iteration 12: need to repeat for 0000205111 particles. (took 0.0255308 sec)
SO iteration 13: need to repeat for 0000205111 particles. (took 0.0259531 sec)
SO iteration 14: need to repeat for 0000205111 particles. (took 0.0255229 sec)
SO iteration 15: need to repeat for 0000204858 particles. (took 0.025434 sec)
SO iteration 16: need to repeat for 0000003096 particles. (took 0.025322 sec)
SO iteration 17: need to repeat for 0000000074 particles. (took 0.00190687 sec)
SO iteration 1: need to repeat for 0000205111 particles. (took 0.026371 sec)
SO iteration 2: need to repeat for 0000205111 particles. (took 0.0226359 sec)
SO iteration 3: need to repeat for 0000205111 particles. (took 0.0236452 sec)
SO iteration 4: need to repeat for 0000205111 particles. (took 0.0231781 sec)
SO iteration 5: need to repeat for 0000205111 particles. (took 0.022984 sec)
SO iteration 6: need to repeat for 0000205111 particles. (took 0.0230799 sec)
SO iteration 7: need to repeat for 0000205111 particles. (took 0.0231121 sec)
SO iteration 8: need to repeat for 0000205111 particles. (took 0.0229938 sec)
SO iteration 9: need to repeat for 0000205111 particles. (took 0.023356 sec)
SO iteration 10: need to repeat for 0000205111 particles. (took 0.023212 sec)
SO iteration 11: need to repeat for 0000205111 particles. (took 0.0230401 sec)
SO iteration 12: need to repeat for 0000205111 particles. (took 0.0231261 sec)
SO iteration 13: need to repeat for 0000205111 particles. (took 0.0234189 sec)
SO iteration 14: need to repeat for 0000205111 particles. (took 0.0230241 sec)
SO iteration 15: need to repeat for 0000205070 particles. (took 0.023011 sec)
SO iteration 16: need to repeat for 0000129500 particles. (took 0.0235221 sec)
SO iteration 17: need to repeat for 0000001656 particles. (took 0.016614 sec)
SO iteration 18: need to repeat for 0000000063 particles. (took 0.0013361 sec)
SO iteration 19: need to repeat for 0000000003 particles. (took 0.000566959 sec)
SO iteration 1: need to repeat for 0000205111 particles. (took 0.0262141 sec)
SO iteration 2: need to repeat for 0000205111 particles. (took 0.0227599 sec)
SO iteration 3: need to repeat for 0000205111 particles. (took 0.0204961 sec)
SO iteration 4: need to repeat for 0000205111 particles. (took 0.019944 sec)
SO iteration 5: need to repeat for 0000205111 particles. (took 0.0199909 sec)
SO iteration 6: need to repeat for 0000205111 particles. (took 0.019881 sec)
SO iteration 7: need to repeat for 0000205111 particles. (took 0.0197461 sec)
SO iteration 8: need to repeat for 0000205111 particles. (took 0.0197561 sec)
SO iteration 9: need to repeat for 0000205111 particles. (took 0.0198362 sec)
SO iteration 10: need to repeat for 0000205111 particles. (took 0.0198269 sec)
SO iteration 11: need to repeat for 0000205111 particles. (took 0.02037 sec)
SO iteration 12: need to repeat for 0000205111 particles. (took 0.020601 sec)
SO iteration 13: need to repeat for 0000205111 particles. (took 0.0197651 sec)
SO iteration 14: need to repeat for 0000205111 particles. (took 0.019747 sec)
SO iteration 15: need to repeat for 0000205111 particles. (took 0.019798 sec)
SO iteration 16: need to repeat for 0000205105 particles. (took 0.019805 sec)
SO iteration 17: need to repeat for 0000182076 particles. (took 0.0198309 sec)
SO iteration 18: need to repeat for 0000012414 particles. (took 0.0183299 sec)
SO iteration 19: need to repeat for 0000000162 particles. (took 0.00415492 sec)
SO iteration 20: need to repeat for 0000000008 particles. (took 0.00060606 sec)
determining spherical overdensity masses took 2.77421 sec
finding spherical overdensity particles took 0.629375 sec
determining contamination of halos took 0.278337 sec
Global sort of Groups took 0.167742 sec
Global sort of SubGroups took 0.661509 sec
Global sort of IDs took 0.451681 sec
Writing block 0 (GLEN), n=928, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3712d
Writing block 1 (GOFF), n=928, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3712d
Writing block 2 (MTOT), n=928, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3712d
Writing block 3 (GPOS), n=928, ptype=0, dtype=1, ndim=3, bpb=4 bytes=11136d
Writing block 4 (MMEA), n=928, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3712d
Writing block 5 (RMEA), n=928, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3712d
Writing block 6 (MCRI), n=928, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3712d
Writing block 7 (RCRI), n=928, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3712d
Writing block 8 (MTOP), n=928, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3712d
Writing block 9 (RTOP), n=928, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3712d
Writing block 17 (NCON), n=928, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3712d
Writing block 18 (MCON), n=928, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3712d
Writing block 22 (NSUB), n=928, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3712d
Writing block 23 (FSUB), n=928, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3712d
Writing block 24 (SLEN), n=2732, ptype=1, dtype=0, ndim=1, bpb=4 bytes=10928d
Writing block 25 (SOFF), n=2732, ptype=1, dtype=0, ndim=1, bpb=4 bytes=10928d
Writing block 27 (MSUB), n=2732, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 28 (SPOS), n=2732, ptype=1, dtype=1, ndim=3, bpb=4 bytes=32784d
Writing block 29 (SVEL), n=2732, ptype=1, dtype=1, ndim=3, bpb=4 bytes=32784d
Writing block 30 (SCM ), n=2732, ptype=1, dtype=1, ndim=3, bpb=4 bytes=32784d
Writing block 33 (VMAX), n=2732, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 34 (RMAX), n=2732, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 35 (RHMS), n=2732, ptype=1, dtype=1, ndim=6, bpb=4 bytes=65568d
Writing block 36 (MTRH), n=2732, ptype=1, dtype=1, ndim=6, bpb=4 bytes=65568d
Writing block 37 (MBID), n=2732, ptype=1, dtype=2, ndim=1, bpb=8 bytes=21856d
Writing block 38 (GRNR), n=2732, ptype=1, dtype=0, ndim=1, bpb=4 bytes=10928d
Writing block 39 (SUBN), n=2732, ptype=1, dtype=0, ndim=1, bpb=4 bytes=10928d
Writing block 40 (SMST), n=2732, ptype=1, dtype=1, ndim=6, bpb=4 bytes=65568d
Writing block 53 (PID ), n=369411, ptype=2, dtype=2, ndim=1, bpb=8 bytes=2955288d
Writing block 54 (SLEN), n=2732, ptype=1, dtype=0, ndim=6, bpb=4 bytes=65568d
Writing block 55 (STEN), n=2732, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 56 (SKEN), n=2732, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 57 (SUEN), n=2732, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 58 (SUIT), n=2732, ptype=1, dtype=1, ndim=9, bpb=4 bytes=98352d
Writing block 59 (BHMA), n=2732, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 60 (BHMD), n=2732, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 61 (SVD ), n=2732, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 62 (SVDH), n=2732, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 63 (HMPR), n=2732, ptype=1, dtype=1, ndim=6, bpb=4 bytes=65568d
Writing block 64 (SSFR), n=2732, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 65 (SSA ), n=2732, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 66 (SSBZ), n=2732, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 67 (SSIM), n=2732, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 68 (SSPI), n=2732, ptype=4, dtype=1, ndim=3, bpb=4 bytes=32784d
Writing block 69 (GSPI), n=2732, ptype=1, dtype=1, ndim=3, bpb=4 bytes=32784d
Writing block 70 (FSPI), n=2732, ptype=5, dtype=1, ndim=3, bpb=4 bytes=32784d
Writing block 71 (SFM ), n=2732, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 72 (SFMT), n=2732, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 73 (SFME), n=2732, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 74 (SFAE), n=2732, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 75 (SFKE), n=2732, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 76 (SFTE), n=2732, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 77 (SMWP), n=2732, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 78 (SMM ), n=2732, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 79 (SMMS), n=2732, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 80 (SFZ ), n=2732, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 81 (SFZS), n=2732, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 82 (SSIA), n=2732, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 83 (SIAS), n=2732, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 84 (SMET), n=2732, ptype=5, dtype=1, ndim=9, bpb=4 bytes=98352d
Writing block 85 (SMTS), n=2732, ptype=5, dtype=1, ndim=9, bpb=4 bytes=98352d
Writing block 86 (MF1 ), n=2732, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 87 (MeF1), n=2732, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 88 (MF  ), n=2732, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 89 (MeF2), n=2732, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 90 (MFA ), n=2732, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 91 (MeFA), n=2732, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 92 (NSPI), n=2732, ptype=6, dtype=1, ndim=3, bpb=4 bytes=32784d
Writing block 93 (NFM ), n=2732, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 94 (NFMT), n=2732, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 95 (NFME), n=2732, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 96 (NFAE), n=2732, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 97 (NFKE), n=2732, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 98 (NFTE), n=2732, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 99 (SMWP), n=2732, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 100 (SMM ), n=2732, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 101 (SMMS), n=2732, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 102 (SSIA), n=2732, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 103 (SIAS), n=2732, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 104 (SMET), n=2732, ptype=6, dtype=1, ndim=9, bpb=4 bytes=98352d
Writing block 105 (SMTS), n=2732, ptype=6, dtype=1, ndim=9, bpb=4 bytes=98352d
Writing block 106 (MF1 ), n=2732, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 107 (MeF1), n=2732, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 108 (MF2 ), n=2732, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 109 (MeF2), n=2732, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 110 (MFA ), n=2732, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 111 (MeFA), n=2732, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 112 (SM  ), n=2732, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 113 (SFKE), n=2732, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 114 (SFAE), n=2732, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 115 (SMWP), n=2732, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 116 (SMM ), n=2732, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 117 (SMMS), n=2732, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 118 (SSIA), n=2732, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 119 (SIAS), n=2732, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 120 (SMET), n=2732, ptype=4, dtype=1, ndim=9, bpb=4 bytes=98352d
Writing block 121 (SMTS), n=2732, ptype=4, dtype=1, ndim=9, bpb=4 bytes=98352d
Writing block 122 (MF1 ), n=2732, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 123 (MeF1), n=2732, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 124 (MF2 ), n=2732, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 125 (MeF2), n=2732, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 126 (MFA ), n=2732, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 127 (MeFA), n=2732, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10928d
Writing block 128 (MMe5), n=928, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3712d
Writing block 129 (RMe5), n=928, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3712d
Writing block 130 (MCr5), n=928, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3712d
Writing block 131 (RCr5), n=928, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3712d
Writing block 132 (MMe2), n=928, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3712d
Writing block 133 (RMe2), n=928, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3712d
Writing block 134 (MCr2), n=928, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3712d
Writing block 135 (RCr2), n=928, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3712d
Writing block 136 (MAPT), n=2732, ptype=7, dtype=1, ndim=60, bpb=4 bytes=655680d
Writing block 137 (SAPT), n=2732, ptype=8, dtype=1, ndim=10, bpb=4 bytes=109280d
Writing block 138 (VAPT), n=2732, ptype=9, dtype=1, ndim=10, bpb=4 bytes=109280d
Writing block 139 (BEGY), n=369411, ptype=2, dtype=1, ndim=1, bpb=4 bytes=1477644d
Subgroup catalogues saved. took = 6.65976 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 7.126329e-01
 eagle_ph_key_ort: type= 2 timed by volker 5.107784e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.199409e-02
 eagle_ph_key_ort: type= 4 timed by volker 4.199409e-02
 eagle_ph_key_ort: type= 5 timed by volker 4.199409e-02
 eagle_ph_key_ort: timing parallel sort = 8.194559e-01
 eagle_fetch_elements: we are using 1766079328 bytes of memory, FreeBytes= 2207599160

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 1844.67 Mbyte (on task=0), Smallest = 1321.43 Mbyte, Average = 1338.22 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0575    1203.0715  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5266    1227.5981  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8776    1268.4758  fof_fof()/fof.c/337
   0 2975 0             Group      1.0542    1269.5300  fof_fof()/fof.c/380
   0 2976 0          SubGroup    550.6372    1820.1671  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5023    1844.6694  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 2182755 number of bytes = 698481600

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3528.6 Mbyte (on task=0), Smallest = 3005.37 Mbyte, Average = 3022.38 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0575    1203.0715  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5266    1227.5981  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8776    1268.4758  fof_fof()/fof.c/337
   0 2975 0             Group      1.0542    1269.5300  fof_fof()/fof.c/380
   0 2976 0          SubGroup    550.6372    1820.1671  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5023    1844.6694  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      8.3266    1852.9959  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      8.3266    1861.3225  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      8.3266    1869.6490  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    666.1240    2535.7730  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    666.1240    3201.8970  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    326.6968    3528.5937  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.515841e+00
 eagle_fetch_elements: we are using 1766079328 bytes of memory, FreeBytes= 2207599160
 eagle_fetch_elements: max_bytes= 504, max_elements= 1731450 number of bytes = 872650800
 eagle_ph_key_ort: timing parallel SphP exchange = 4.444122e-03
 eagle_fetch_elements: we are using 1766079328 bytes of memory, FreeBytes= 2207599160
 eagle_fetch_elements: max_bytes= 384, max_elements= 2264204 number of bytes = 869454336
 eagle_ph_key_ort: timing parallel MetP exchange = 4.599094e-04
 eagle_fetch_elements: we are using 1766079328 bytes of memory, FreeBytes= 2207599160
 eagle_fetch_elements: max_bytes= 256, max_elements= 3370380 number of bytes = 862817280
 eagle_ph_key_ort: timing parallel BHP exchange = 4.370213e-04
Sorting particle-data by peano-hilbert key took = 3.71818 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1766079328 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 2182755 number of bytes= 698481600
 eagle_ph_restore: timing parallel P exchange = 2.408639e+00
 eagle_send_elements: we are using 1766079328 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1731450 number of bytes= 872650800
 eagle_ph_restore: timing parallel SphP exchange = 5.062103e-03
 eagle_send_elements: we are using 1766079328 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2264204 number of bytes= 869454336
 eagle_ph_restore: timing parallel MetP exchange = 7.250309e-04
 eagle_send_elements: we are using 1766079328 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 3370380 number of bytes= 862817280
 eagle_ph_restore: timing parallel BHP exchange = 7.181168e-04
Restoring original order after ph key sorting took = 2.43135 sec

finished writing particle file...

Finished with SUBFIND.  (total time=1421.16 sec)

Finished computing FoF groups.  (presently allocated=1203.07 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=181169
After=202721
NTopleaves= 177381  NTopnodes=202721 (space for 244687)
gravity work-load balance=1.0006   memory-balance=1.0006   SPH work-load balance=0
iter=0 exchange of 0273070536 particles (ret=0)
domain decomposition done. (took 3.78512 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.92105 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 16: endrun called with an error level of 124


task 16: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 112: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
task 112: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 128: endrun called with an error level of 124


task 128: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
task 160: endrun called with an error level of 124


task 160: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 176: endrun called with an error level of 124


task 176: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
task 192: endrun called with an error level of 124


task 192: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
Finished FOF, total time doing fof/subfind = 1447.47 s
task 0: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.69 Mb (on task=112), Smallest =   62645.94 Mb (on task=0), Average =   62686.84 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1886.12 Mb (on task=0), Smallest =    1798.37 Mb (on task=112), Average =    1845.23 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16339.11 Mb (on task=112), Average =   16351.60 Mb
AllocMem:	 Largest =    1886.12 Mb (on task=0), Smallest =    1798.37 Mb (on task=112), Average =    1845.23 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_009_z001p308/snap_009_z001p308.0.hdf5' on task=0 (contains 17189155 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  17041804  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     20130  (tot=     0000303834) masstab=0
Type 3 (bulge):   127221  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.439208

Setting next time for line of sight file to Time_next= 0.43353

Setting next time for snipshot file to Time_next= 0.441249

Setting next time for fof output to Time_next= 0.441249
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.1326 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
Before=177585
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=177585
After=199169
NTopleaves= 174273  NTopnodes=199169 (space for 244687)
gravity work-load balance=1.00053   memory-balance=1.00053   SPH work-load balance=0
iter=0 exchange of 0273049808 particles (ret=0)
domain decomposition done. (took 9.81728 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.08365 MByte in top-level domain structure

Allocated 503.335 MByte for BH-tree, and 0.664799 Mbyte for top-leaves.  (presently allocted 1706.89 MB)

Begin Ngb-tree construction.
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1753.07 Mbyte (on task=75), Smallest = 1752.95 Mbyte, Average = 1753.06 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  75 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
  75 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
  75 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
  75 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
  75 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
  75 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
  75 2972 0          TopNodes      9.8770    1202.8921  domain_allocate()/domain.c/570
  75 2973 0   DomainNodeIndex      0.6648    1203.5569  force_treeallocate()/forcetree.c/4800
  75 2974 0        Nodes_base    258.5284    1462.0853  force_treeallocate()/forcetree.c/4803
  75 2975 0     Extnodes_base    215.4404    1677.5257  force_treeallocate()/forcetree.c/4811
  75 2976 0          Nextnode     15.0630    1692.5886  force_treeallocate()/forcetree.c/4820
  75 2977 0            Father     14.3032    1706.8919  force_treeallocate()/forcetree.c/4827
  75 2978 0           Ngblist      4.0888    1710.9806  density()/density.c/690
  75 2979 0              Left      8.1776    1719.1582  density()/density.c/692
  75 2980 0             Right      8.1776    1727.3358  density()/density.c/693
  75 2981 0    DataIndexTable      7.0175    1734.3533  density()/density.c/738
  75 2982 0      DataNodeList     18.7134    1753.0667  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_1.259.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_1.370.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.89 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=182041
After=202529
NTopleaves= 177213  NTopnodes=202529 (space for 244687)
gravity work-load balance=1.00053   memory-balance=1.00053   SPH work-load balance=0
iter=0 exchange of 0272859321 particles (ret=0)
domain decomposition done. (took 3.80713 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.92984 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1203.06 MB)
Tree construction.

Start linking particles (presently allocated=1756.71 MB)
links on local processor done (took 4.58162 sec).
Marked=0040986775 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1858.31 MB) 
have done 0000934821 cross links (processed 0040986775, took 1.60501 sec)
have done 0000368141 cross links (processed 0027850600, took 1.46444 sec)
have done 0000237486 cross links (processed 0022042684, took 1.26163 sec)
have done 0000143609 cross links (processed 0013011709, took 1.15427 sec)
have done 0000078562 cross links (processed 0006754790, took 0.918521 sec)
have done 0000045333 cross links (processed 0004326983, took 0.932521 sec)
have done 0000027155 cross links (processed 0002462816, took 0.875017 sec)
have done 0000015372 cross links (processed 0000778077, took 0.299097 sec)
have done 0000007897 cross links (processed 0000366619, took 0.119225 sec)
have done 0000003657 cross links (processed 0000158763, took 0.098417 sec)
have done 0000001591 cross links (processed 0000035150, took 0.065717 sec)
have done 0000000556 cross links (processed 0000010459, took 0.0464361 sec)
have done 0000000237 cross links (processed 0000007682, took 0.0472221 sec)
have done 0000000081 cross links (processed 0000001687, took 0.045506 sec)
have done 0000000016 cross links (processed 0000000246, took 0.0442519 sec)
have done 0000000002 cross links (processed 0000000060, took 0.0454569 sec)
have done 0000000000 cross links (processed 0000000006, took 0.0442178 sec)
Local groups found.

group finding took = 13.7316 sec
Start finding nearest dm-particle (presently allocated=1756.71 MB)
still finding nearest... (presently allocated=1846.17 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.109351 sec
compiling local group data and catalogue took = 0.694293 sec

Total number of groups with at least 32 particles: 232265
Largest group has 5468210 particles.
Total number of particles in groups: 0109097554

group properties are now allocated.. (presently allocated=1269.77 MB)
computation of group properties took = 0.0580969 sec
start global sorting of group catalogues number 9
LargestGroup = 4304.406529; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0525739 sec
Group catalogues globally sorted. took = 0.714422 sec
starting saving of group catalogue number 9
data//groups_009_z001p308
Group catalogues number 9 saved. took = 2.00366 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.712789 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.264098 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.705868 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0183540480 particles. (took 20.8182 sec)
ngb iteration 2: need to repeat for 0144534218 particles. (took 9.40367 sec)
ngb iteration 3: need to repeat for 0125040069 particles. (took 6.8332 sec)
ngb iteration 4: need to repeat for 0113340450 particles. (took 5.57207 sec)
ngb iteration 5: need to repeat for 0101683928 particles. (took 4.83351 sec)
ngb iteration 6: need to repeat for 0085961870 particles. (took 4.29565 sec)
ngb iteration 7: need to repeat for 0066381987 particles. (took 3.67615 sec)
ngb iteration 8: need to repeat for 0046703412 particles. (took 3.01551 sec)
ngb iteration 9: need to repeat for 0030408867 particles. (took 2.27969 sec)
ngb iteration 10: need to repeat for 0018699437 particles. (took 1.61632 sec)
ngb iteration 11: need to repeat for 0011069620 particles. (took 1.06691 sec)
ngb iteration 12: need to repeat for 0006391163 particles. (took 0.661487 sec)
ngb iteration 13: need to repeat for 0003633222 particles. (took 0.403393 sec)
ngb iteration 14: need to repeat for 0001964384 particles. (took 0.258675 sec)
ngb iteration 15: need to repeat for 0000929795 particles. (took 0.169507 sec)
ngb iteration 16: need to repeat for 0000436896 particles. (took 0.107843 sec)
ngb iteration 17: need to repeat for 0000207796 particles. (took 0.0758839 sec)
ngb iteration 18: need to repeat for 0000100143 particles. (took 0.059967 sec)
ngb iteration 19: need to repeat for 0000047948 particles. (took 0.0515308 sec)
ngb iteration 20: need to repeat for 0000022384 particles. (took 0.048151 sec)
ngb iteration 21: need to repeat for 0000010116 particles. (took 0.045624 sec)
ngb iteration 22: need to repeat for 0000004345 particles. (took 0.0436411 sec)
ngb iteration 23: need to repeat for 0000001802 particles. (took 0.0418952 sec)
ngb iteration 24: need to repeat for 0000000684 particles. (took 0.0415111 sec)
ngb iteration 25: need to repeat for 0000000243 particles. (took 0.0411689 sec)
ngb iteration 26: need to repeat for 0000000076 particles. (took 0.040767 sec)
ngb iteration 27: need to repeat for 0000000013 particles. (took 0.043047 sec)
ngb iteration 28: need to repeat for 0000000001 particles. (took 0.0415101 sec)
final operations ... 
density and smoothing length for species 1 took 65.9508 sec
Tree construction.
tree build took 0.723158 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.264127 sec
Tree construction.
tree build took 0.718854 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.263961 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.173394 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.92358 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.705803 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.171047 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.93972 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.177836 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.94051 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.949846 sec
saving densities took 2.90453 sec

Number of FOF halos treated with collective SubFind code = 2
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 232263 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 27168 - 54015420 

subfind_exchange()() took 1.5932 sec

collectively doing halo 1, num=9
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1891.29 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1950.84 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1950.84 Mbyte (on task=0), Smallest = 1356.18 Mbyte, Average = 1375.51 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0436    1203.0576  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5311    1227.5888  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8852    1268.4740  fof_fof()/fof.c/337
   0 2975 0             Group      1.2980    1269.7720  fof_fof()/fof.c/380
   0 2976 0          SubGroup    621.5154    1891.2874  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    1903.5467  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    1932.1531  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    1933.0982  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    1934.0317  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    1934.9651  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    1935.8985  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    1936.8358  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    1937.7731  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    1950.8408  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=136625
After=164409
NTopleaves= 143858  NTopnodes=164409 (space for 244687)
gravity work-load balance=1.00055   memory-balance=1.00055   SPH work-load balance=0
iter=0 exchange of 0005448443 particles (ret=0)
domain decomposition done. (took 0.925753 sec)
Freed 3.67484 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 2397.48 Mbyte (on task=0), Smallest = 1802.82 Mbyte, Average = 1822.15 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0436    1203.0576  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5311    1227.5888  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8852    1268.4740  fof_fof()/fof.c/337
   0 2975 0             Group      1.2980    1269.7720  fof_fof()/fof.c/380
   0 2976 0          SubGroup    621.5154    1891.2874  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.1532    1899.5656  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5488    1900.1144  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    255.3461    2155.4605  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base    212.7884    2368.2489  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9304    2383.1792  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    2397.4825  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.38091 sec  (presently allocated=2397.48 MB)
force_treebuild() took 1.63464 sec (presently allocated=2397.48 MB)
Start find_linkngb (21370 particles on task=0)
find linkngb iteration 1: need to repeat for 0005425813 particles. (took 0.411541 sec)
find linkngb iteration 2: need to repeat for 0005231576 particles. (took 0.274544 sec)
find linkngb iteration 3: need to repeat for 0004996744 particles. (took 0.188789 sec)
find linkngb iteration 4: need to repeat for 0004439834 particles. (took 0.214123 sec)
find linkngb iteration 5: need to repeat for 0003713488 particles. (took 0.185593 sec)
find linkngb iteration 6: need to repeat for 0002698813 particles. (took 0.152264 sec)
find linkngb iteration 7: need to repeat for 0001700811 particles. (took 0.11335 sec)
find linkngb iteration 8: need to repeat for 0000967084 particles. (took 0.075896 sec)
find linkngb iteration 9: need to repeat for 0000517656 particles. (took 0.0483191 sec)
find linkngb iteration 10: need to repeat for 0000268462 particles. (took 0.0309138 sec)
find linkngb iteration 11: need to repeat for 0000136424 particles. (took 0.021075 sec)
find linkngb iteration 12: need to repeat for 0000029545 particles. (took 0.0146639 sec)
find linkngb iteration 13: need to repeat for 0000000342 particles. (took 0.0083611 sec)
find linkngb iteration 14: need to repeat for 0000000041 particles. (took 0.00057292 sec)
find linkngb iteration 15: need to repeat for 0000000005 particles. (took 0.00041604 sec)
find linkngb iteration 16: need to repeat for 0000000001 particles. (took 0.000375986 sec)
find_linkngb() took 1.74251 sec
Start finding nearest two (21370 particles on task=0)
find_nearesttwo() took 0.353732 sec (presently allocated=2399.11 MB)
parallel sort of densities done. took 0.0519071 sec
building distributed linked list. (presently allocated 2398.9 MB)
identification of primary candidates took 138.606 sec
adding background as candidate took 0.157192 sec
establishing of rank order took 45.4291 sec  (p=5468210, grouplen=5468210) presently allocated 2398.9 MB

total number of subhalo candidates=23840

number of subhalo candidates that can be done independently=21099.
(Largest size is 2052, finding them took 0.00652003 sec)
particles are marked (took 29.0133)
independent subhalos are assembled on individual CPUs for unbinding (0.165055 sec, (presently allocated=2398.9 MB)
unbinding of independent ones took 0.0435169 sec
particles have returned to their original processor (0.22188 sec, presently allocated 2398.9 MB)

number of subhalo candidates that can be done independently=2512.
(Largest size is 8730, finding them took 0.849568 sec)
particles are marked (took 19.5042)
independent subhalos are assembled on individual CPUs for unbinding (0.165231 sec, (presently allocated=2398.9 MB)
unbinding of independent ones took 0.297813 sec
particles have returned to their original processor (0.221431 sec, presently allocated 2398.9 MB)

number of subhalo candidates that can be done independently=213.
(Largest size is 38254, finding them took 0.806443 sec)
particles are marked (took 15.9599)
independent subhalos are assembled on individual CPUs for unbinding (0.161335 sec, (presently allocated=2398.9 MB)
unbinding of independent ones took 1.34665 sec
particles have returned to their original processor (0.220406 sec, presently allocated 2398.9 MB)

number of subhalo candidates that can be done independently=14.
(Largest size is 246276, finding them took 0.751013 sec)
particles are marked (took 13.0744)
independent subhalos are assembled on individual CPUs for unbinding (0.181347 sec, (presently allocated=2398.9 MB)
unbinding of independent ones took 6.83494 sec
particles have returned to their original processor (0.251916 sec, presently allocated 2398.9 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 246276, finding them took 0.469955 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=246276 ... maximum alloacted 2398.98 MB
took 20.6081 sec
collective unbinding of nr=1 (2) of length=5468210 ... maximum alloacted 2398.98 MB
took 105.416 sec

the collective unbinding of remaining halos took 136.499 sec

found 1751 bound substructures in FoF group of length 5468210
determination of parent subhalo took 0.0427182 sec (presently allocated 2398.98 MB)
determining substructure properties took 109.676 sec (presently allocated 2398.98 MB)

collectively doing halo 2, num=9
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1891.29 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1950.84 MB)
Before=141105
After=169273
NTopleaves= 148114  NTopnodes=169273 (space for 244687)
gravity work-load balance=1.00057   memory-balance=1.00057   SPH work-load balance=0
iter=0 exchange of 0005291504 particles (ret=0)
domain decomposition done. (took 0.921893 sec)
Freed 3.45218 MByte in top-level domain structure
coldomain_Decomposition() took 1.3727 sec  (presently allocated=2398.57 MB)
force_treebuild() took 1.64744 sec (presently allocated=2398.57 MB)
Start find_linkngb (20658 particles on task=0)
find linkngb iteration 1: need to repeat for 0005264618 particles. (took 0.391188 sec)
find linkngb iteration 2: need to repeat for 0005064230 particles. (took 0.261493 sec)
find linkngb iteration 3: need to repeat for 0004837702 particles. (took 0.203423 sec)
find linkngb iteration 4: need to repeat for 0004296746 particles. (took 0.203677 sec)
find linkngb iteration 5: need to repeat for 0003587825 particles. (took 0.174138 sec)
find linkngb iteration 6: need to repeat for 0002603595 particles. (took 0.145163 sec)
find linkngb iteration 7: need to repeat for 0001638879 particles. (took 0.107246 sec)
find linkngb iteration 8: need to repeat for 0000932003 particles. (took 0.072804 sec)
find linkngb iteration 9: need to repeat for 0000497577 particles. (took 0.046386 sec)
find linkngb iteration 10: need to repeat for 0000257618 particles. (took 0.0298531 sec)
find linkngb iteration 11: need to repeat for 0000130861 particles. (took 0.0198441 sec)
find linkngb iteration 12: need to repeat for 0000028416 particles. (took 0.0141659 sec)
find linkngb iteration 13: need to repeat for 0000000438 particles. (took 0.00814486 sec)
find linkngb iteration 14: need to repeat for 0000000061 particles. (took 0.000585794 sec)
find linkngb iteration 15: need to repeat for 0000000005 particles. (took 0.000405788 sec)
find linkngb iteration 16: need to repeat for 0000000001 particles. (took 0.000355959 sec)
find_linkngb() took 1.67978 sec
Start finding nearest two (20658 particles on task=0)
find_nearesttwo() took 0.337036 sec (presently allocated=2400.15 MB)
parallel sort of densities done. took 0.051007 sec
building distributed linked list. (presently allocated 2399.95 MB)
identification of primary candidates took 138.841 sec
adding background as candidate took 0.159985 sec
establishing of rank order took 43.786 sec  (p=5310263, grouplen=5310263) presently allocated 2399.95 MB

total number of subhalo candidates=22847

number of subhalo candidates that can be done independently=20134.
(Largest size is 1292, finding them took 0.00638986 sec)
particles are marked (took 27.7635)
independent subhalos are assembled on individual CPUs for unbinding (0.164181 sec, (presently allocated=2399.95 MB)
unbinding of independent ones took 0.0298462 sec
particles have returned to their original processor (0.219517 sec, presently allocated 2399.95 MB)

number of subhalo candidates that can be done independently=2449.
(Largest size is 7855, finding them took 0.858854 sec)
particles are marked (took 18.3425)
independent subhalos are assembled on individual CPUs for unbinding (0.163906 sec, (presently allocated=2399.95 MB)
unbinding of independent ones took 0.203458 sec
particles have returned to their original processor (0.219817 sec, presently allocated 2399.95 MB)

number of subhalo candidates that can be done independently=237.
(Largest size is 47390, finding them took 0.864781 sec)
particles are marked (took 17.5216)
independent subhalos are assembled on individual CPUs for unbinding (0.165224 sec, (presently allocated=2399.95 MB)
unbinding of independent ones took 1.10187 sec
particles have returned to their original processor (0.232584 sec, presently allocated 2399.95 MB)

number of subhalo candidates that can be done independently=21.
(Largest size is 177480, finding them took 0.643545 sec)
particles are marked (took 13.1642)
independent subhalos are assembled on individual CPUs for unbinding (0.161701 sec, (presently allocated=2399.95 MB)
unbinding of independent ones took 2.19613 sec
particles have returned to their original processor (0.225293 sec, presently allocated 2399.95 MB)

number of subhalo candidates that can be done independently=3.
(Largest size is 229774, finding them took 0.474896 sec)
particles are marked (took 10.9742)
independent subhalos are assembled on individual CPUs for unbinding (0.150379 sec, (presently allocated=2399.95 MB)
unbinding of independent ones took 0.25735 sec
particles have returned to their original processor (0.208706 sec, presently allocated 2399.95 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 229774, finding them took 0.457998 sec)
too few, I do the rest of 3 collectively

collective unbinding of nr=0 (3) of length=229774 ... maximum alloacted 2400.02 MB
took 5.31629 sec
collective unbinding of nr=1 (3) of length=177480 ... maximum alloacted 2400.02 MB
took 4.78587 sec
collective unbinding of nr=2 (3) of length=5310263 ... maximum alloacted 2400.02 MB
took 101.176 sec

the collective unbinding of remaining halos took 121.296 sec

found 1893 bound substructures in FoF group of length 5310263
determination of parent subhalo took 0.037864 sec (presently allocated 2400.02 MB)
determining substructure properties took 113.094 sec (presently allocated 2400.02 MB)
processing of collective halos took 1063.44 sec
sort of local particles()() took 0.68095 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 527.969 sec

Task 234: testing particles ...
Task 190: testing particles ...
Task 187: testing particles ...
Task 193: testing particles ...
Task 203: testing particles ...
Task 250: testing particles ...
Task 243: testing particles ...
Task 246: testing particles ...
Task 213: testing particles ...
Task 183: testing particles ...
Task 154: testing particles ...
Task 247: testing particles ...
Task 227: testing particles ...
Task 1: testing particles ...
Task 207: testing particles ...
Task 223: testing particles ...
Task 126: testing particles ...
Task 176: testing particles ...
Task 162: testing particles ...
Task 252: testing particles ...
Task 216: testing particles ...
Task 231: testing particles ...
Task 120: testing particles ...
Task 138: testing particles ...
Task 233: testing particles ...
Task 175: testing particles ...
Task 255: testing particles ...
Task 147: testing particles ...
Task 229: testing particles ...
Task 239: testing particles ...
Task 130: testing particles ...
Task 110: testing particles ...
Task 114: testing particles ...
Task 172: testing particles ...
Task 191: testing particles ...
Task 105: testing particles ...
Task 111: testing particles ...
Task 163: testing particles ...
Task 132: testing particles ...
Task 241: testing particles ...
Task 179: testing particles ...
Task 181: testing particles ...
Task 212: testing particles ...
Task 198: testing particles ...
Task 81: testing particles ...
Task 199: testing particles ...
Task 189: testing particles ...
Task 160: testing particles ...
Task 209: testing particles ...
Task 186: testing particles ...
Task 235: testing particles ...
Task 219: testing particles ...
Task 137: testing particles ...
Task 206: testing particles ...
unsorting of local particles()() took 0.560981 sec
Task 0: testing particles ...
Task 192: testing particles ...
Task 253: testing particles ...
Task 214: testing particles ...
Task 238: testing particles ...
Task 200: testing particles ...
Task 251: testing particles ...
Task 164: testing particles ...
Task 169: testing particles ...
Task 112: testing particles ...
Task 173: testing particles ...
Task 170: testing particles ...
Task 222: testing particles ...
Task 215: testing particles ...
Task 131: testing particles ...
Task 161: testing particles ...
Task 185: testing particles ...
Task 145: testing particles ...
Task 94: testing particles ...
Task 67: testing particles ...
Task 153: testing particles ...
Task 136: testing particles ...
Task 104: testing particles ...
Task 220: testing particles ...
Task 134: testing particles ...
Task 230: testing particles ...
Task 121: testing particles ...
Task 195: testing particles ...
Task 171: testing particles ...
Task 177: testing particles ...
Task 116: testing particles ...
Task 174: testing particles ...
Task 149: testing particles ...
Task 237: testing particles ...
Task 158: testing particles ...
Task 204: testing particles ...
Task 205: testing particles ...
Task 208: testing particles ...
Task 196: testing particles ...
Task 100: testing particles ...
Task 244: testing particles ...
Task 124: testing particles ...
Task 211: testing particles ...
Task 184: testing particles ...
Task 218: testing particles ...
Task 108: testing particles ...
Task 77: testing particles ...
Task 182: testing particles ...
Task 194: testing particles ...
Task 159: testing particles ...
Task 240: testing particles ...
Task 75: testing particles ...
Task 97: testing particles ...
Task 232: testing particles ...
Task 93: testing particles ...
Task 166: testing particles ...
Task 178: testing particles ...
Task 74: testing particles ...
Task 90: testing particles ...
Task 83: testing particles ...
Task 58: testing particles ...
Task 155: testing particles ...
Task 201: testing particles ...
Task 123: testing particles ...
Task 142: testing particles ...
Task 188: testing particles ...
Task 140: testing particles ...
Task 150: testing particles ...
Task 152: testing particles ...
Task 143: testing particles ...
Task 242: testing particles ...
Task 91: testing particles ...
Task 225: testing particles ...
Task 87: testing particles ...
Task 125: testing particles ...
Task 221: testing particles ...
Task 103: testing particles ...
Task 73: testing particles ...
Task 228: testing particles ...
Task 146: testing particles ...
Task 101: testing particles ...
Task 245: testing particles ...
Task 236: testing particles ...
Task 133: testing particles ...
Task 119: testing particles ...
Task 144: testing particles ...
Task 151: testing particles ...
Task 217: testing particles ...
Task 128: testing particles ...
Task 109: testing particles ...
Task 59: testing particles ...
Task 139: testing particles ...
Task 80: testing particles ...
Task 71: testing particles ...
Task 157: testing particles ...
Task 226: testing particles ...
Task 249: testing particles ...
Task 84: testing particles ...
Task 79: testing particles ...
Task 92: testing particles ...
Task 129: testing particles ...
Task 47: testing particles ...
Task 85: testing particles ...
Task 210: testing particles ...
Task 102: testing particles ...
Task 202: testing particles ...
Task 56: testing particles ...
Task 254: testing particles ...
Task 113: testing particles ...
Task 54: testing particles ...
Task 107: testing particles ...
Task 76: testing particles ...
Task 135: testing particles ...
Task 41: testing particles ...
Task 117: testing particles ...
Task 62: testing particles ...
Task 180: testing particles ...
Task 224: testing particles ...
Task 66: testing particles ...
Task 127: testing particles ...
Task 106: testing particles ...
Task 168: testing particles ...
Task 118: testing particles ...
Task 98: testing particles ...
Task 248: testing particles ...
Task 156: testing particles ...
Task 46: testing particles ...
Task 167: testing particles ...
Task 70: testing particles ...
Task 122: testing particles ...
Task 43: testing particles ...
Task 82: testing particles ...
Task 51: testing particles ...
Task 148: testing particles ...
Task 69: testing particles ...
Task 99: testing particles ...
Task 55: testing particles ...
Task 89: testing particles ...
Task 53: testing particles ...
Task 78: testing particles ...
Task 95: testing particles ...
Task 197: testing particles ...
Task 65: testing particles ...
Task 64: testing particles ...
Task 165: testing particles ...
Task 28: testing particles ...
Task 86: testing particles ...
Task 88: testing particles ...
Task 52: testing particles ...
Task 50: testing particles ...
Task 141: testing particles ...
Task 35: testing particles ...
Task 60: testing particles ...
Task 48: testing particles ...
Task 45: testing particles ...
Task 49: testing particles ...
Task 39: testing particles ...
Task 96: testing particles ...
Task 72: testing particles ...
Task 115: testing particles ...
Task 61: testing particles ...
Task 26: testing particles ...
Task 57: testing particles ...
Task 31: testing particles ...
Task 68: testing particles ...
Task 33: testing particles ...
Task 44: testing particles ...
Task 63: testing particles ...
Task 25: testing particles ...
Task 32: testing particles ...
Task 36: testing particles ...
Task 38: testing particles ...
Task 42: testing particles ...
Task 22: testing particles ...
Task 34: testing particles ...
Task 24: testing particles ...
Task 29: testing particles ...
Task 19: testing particles ...
Task 37: testing particles ...
Task 23: testing particles ...
Task 40: testing particles ...
Task 27: testing particles ...
Task 20: testing particles ...
Task 14: testing particles ...
Task 30: testing particles ...
Task 21: testing particles ...
Task 15: testing particles ...
Task 18: testing particles ...
Task 16: testing particles ...
Task 13: testing particles ...
Task 17: testing particles ...
Task 12: testing particles ...
Task 11: testing particles ...
Task 10: testing particles ...
Task 7: testing particles ...
Task 5: testing particles ...
Task 9: testing particles ...
Task 6: testing particles ...
Task 8: testing particles ...
Task 3: testing particles ...
Task 4: testing particles ...
Task 2: testing particles ...
subfind_exchange() (for return to original CPU)  took 3.3337 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1891.29 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1950.84 MB)
Before=186889
After=206281
NTopleaves= 180496  NTopnodes=206281 (space for 244687)
gravity work-load balance=1.00032   memory-balance=1.00032   SPH work-load balance=0
iter=0 exchange of 0273297778 particles (ret=0)
domain decomposition done. (took 3.93111 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.75809 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000199980 particles. (took 0.028343 sec)
SO iteration 2: need to repeat for 0000199980 particles. (took 0.0234909 sec)
SO iteration 3: need to repeat for 0000199980 particles. (took 0.024399 sec)
SO iteration 4: need to repeat for 0000199980 particles. (took 0.0248661 sec)
SO iteration 5: need to repeat for 0000199980 particles. (took 0.0400288 sec)
SO iteration 6: need to repeat for 0000199980 particles. (took 0.0406921 sec)
SO iteration 7: need to repeat for 0000199980 particles. (took 0.042331 sec)
SO iteration 8: need to repeat for 0000199980 particles. (took 0.034179 sec)
SO iteration 9: need to repeat for 0000199980 particles. (took 0.0252669 sec)
SO iteration 10: need to repeat for 0000199980 particles. (took 0.0251958 sec)
SO iteration 11: need to repeat for 0000199980 particles. (took 0.0252368 sec)
SO iteration 12: need to repeat for 0000199980 particles. (took 0.0250821 sec)
SO iteration 13: need to repeat for 0000199980 particles. (took 0.0250931 sec)
SO iteration 14: need to repeat for 0000199980 particles. (took 0.025244 sec)
SO iteration 15: need to repeat for 0000199621 particles. (took 0.0251849 sec)
SO iteration 16: need to repeat for 0000001390 particles. (took 0.0250092 sec)
SO iteration 17: need to repeat for 0000000046 particles. (took 0.00132084 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000580072 sec)
SO iteration 1: need to repeat for 0000199980 particles. (took 0.0256162 sec)
SO iteration 2: need to repeat for 0000199980 particles. (took 0.0228209 sec)
SO iteration 3: need to repeat for 0000199980 particles. (took 0.0252781 sec)
SO iteration 4: need to repeat for 0000199980 particles. (took 0.0234559 sec)
SO iteration 5: need to repeat for 0000199980 particles. (took 0.023308 sec)
SO iteration 6: need to repeat for 0000199980 particles. (took 0.0232999 sec)
SO iteration 7: need to repeat for 0000199980 particles. (took 0.0233219 sec)
SO iteration 8: need to repeat for 0000199980 particles. (took 0.0235648 sec)
SO iteration 9: need to repeat for 0000199980 particles. (took 0.023536 sec)
SO iteration 10: need to repeat for 0000199980 particles. (took 0.0233798 sec)
SO iteration 11: need to repeat for 0000199980 particles. (took 0.0232549 sec)
SO iteration 12: need to repeat for 0000199980 particles. (took 0.023284 sec)
SO iteration 13: need to repeat for 0000199980 particles. (took 0.023237 sec)
SO iteration 14: need to repeat for 0000199980 particles. (took 0.0232868 sec)
SO iteration 15: need to repeat for 0000199897 particles. (took 0.0232952 sec)
SO iteration 16: need to repeat for 0000068648 particles. (took 0.0234239 sec)
SO iteration 17: need to repeat for 0000000785 particles. (took 0.0119739 sec)
SO iteration 18: need to repeat for 0000000033 particles. (took 0.00103402 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000624895 sec)
SO iteration 1: need to repeat for 0000199980 particles. (took 0.0256822 sec)
SO iteration 2: need to repeat for 0000199980 particles. (took 0.0232289 sec)
SO iteration 3: need to repeat for 0000199980 particles. (took 0.0198271 sec)
SO iteration 4: need to repeat for 0000199980 particles. (took 0.02068 sec)
SO iteration 5: need to repeat for 0000199980 particles. (took 0.0203559 sec)
SO iteration 6: need to repeat for 0000199980 particles. (took 0.020221 sec)
SO iteration 7: need to repeat for 0000199980 particles. (took 0.020215 sec)
SO iteration 8: need to repeat for 0000199980 particles. (took 0.0201581 sec)
SO iteration 9: need to repeat for 0000199980 particles. (took 0.0203371 sec)
SO iteration 10: need to repeat for 0000199980 particles. (took 0.0201778 sec)
SO iteration 11: need to repeat for 0000199980 particles. (took 0.0202651 sec)
SO iteration 12: need to repeat for 0000199980 particles. (took 0.0220902 sec)
SO iteration 13: need to repeat for 0000199980 particles. (took 0.020196 sec)
SO iteration 14: need to repeat for 0000199980 particles. (took 0.020211 sec)
SO iteration 15: need to repeat for 0000199975 particles. (took 0.0202291 sec)
SO iteration 16: need to repeat for 0000199964 particles. (took 0.020257 sec)
SO iteration 17: need to repeat for 0000133535 particles. (took 0.020195 sec)
SO iteration 18: need to repeat for 0000005068 particles. (took 0.015203 sec)
SO iteration 19: need to repeat for 0000000097 particles. (took 0.00231004 sec)
SO iteration 20: need to repeat for 0000000005 particles. (took 0.000566006 sec)
SO iteration 1: need to repeat for 0000199980 particles. (took 0.0254769 sec)
SO iteration 2: need to repeat for 0000199980 particles. (took 0.02406 sec)
SO iteration 3: need to repeat for 0000199980 particles. (took 0.0249441 sec)
SO iteration 4: need to repeat for 0000199980 particles. (took 0.025198 sec)
SO iteration 5: need to repeat for 0000199980 particles. (took 0.0256631 sec)
SO iteration 6: need to repeat for 0000199980 particles. (took 0.026406 sec)
SO iteration 7: need to repeat for 0000199980 particles. (took 0.0258842 sec)
SO iteration 8: need to repeat for 0000199980 particles. (took 0.0254362 sec)
SO iteration 9: need to repeat for 0000199980 particles. (took 0.0254321 sec)
SO iteration 10: need to repeat for 0000199980 particles. (took 0.025907 sec)
SO iteration 11: need to repeat for 0000199980 particles. (took 0.0254841 sec)
SO iteration 12: need to repeat for 0000199980 particles. (took 0.0274892 sec)
SO iteration 13: need to repeat for 0000199980 particles. (took 0.025317 sec)
SO iteration 14: need to repeat for 0000199980 particles. (took 0.025228 sec)
SO iteration 15: need to repeat for 0000199607 particles. (took 0.0251758 sec)
SO iteration 16: need to repeat for 0000001210 particles. (took 0.0255468 sec)
SO iteration 17: need to repeat for 0000000042 particles. (took 0.00126886 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.00058198 sec)
SO iteration 1: need to repeat for 0000199980 particles. (took 0.0258729 sec)
SO iteration 2: need to repeat for 0000199980 particles. (took 0.02298 sec)
SO iteration 3: need to repeat for 0000199980 particles. (took 0.0240669 sec)
SO iteration 4: need to repeat for 0000199980 particles. (took 0.024626 sec)
SO iteration 5: need to repeat for 0000199980 particles. (took 0.0247979 sec)
SO iteration 6: need to repeat for 0000199980 particles. (took 0.024807 sec)
SO iteration 7: need to repeat for 0000199980 particles. (took 0.0246329 sec)
SO iteration 8: need to repeat for 0000199980 particles. (took 0.0247741 sec)
SO iteration 9: need to repeat for 0000199980 particles. (took 0.0247011 sec)
SO iteration 10: need to repeat for 0000199980 particles. (took 0.0246251 sec)
SO iteration 11: need to repeat for 0000199980 particles. (took 0.0246851 sec)
SO iteration 12: need to repeat for 0000199980 particles. (took 0.0247302 sec)
SO iteration 13: need to repeat for 0000199980 particles. (took 0.024699 sec)
SO iteration 14: need to repeat for 0000199980 particles. (took 0.0246718 sec)
SO iteration 15: need to repeat for 0000199692 particles. (took 0.024708 sec)
SO iteration 16: need to repeat for 0000003116 particles. (took 0.0244639 sec)
SO iteration 17: need to repeat for 0000000083 particles. (took 0.00191903 sec)
SO iteration 18: need to repeat for 0000000003 particles. (took 0.000613928 sec)
SO iteration 1: need to repeat for 0000199980 particles. (took 0.0255878 sec)
SO iteration 2: need to repeat for 0000199980 particles. (took 0.0228658 sec)
SO iteration 3: need to repeat for 0000199980 particles. (took 0.024117 sec)
SO iteration 4: need to repeat for 0000199980 particles. (took 0.0230591 sec)
SO iteration 5: need to repeat for 0000199980 particles. (took 0.0228901 sec)
SO iteration 6: need to repeat for 0000199980 particles. (took 0.023164 sec)
SO iteration 7: need to repeat for 0000199980 particles. (took 0.0232508 sec)
SO iteration 8: need to repeat for 0000199980 particles. (took 0.022979 sec)
SO iteration 9: need to repeat for 0000199980 particles. (took 0.0230498 sec)
SO iteration 10: need to repeat for 0000199980 particles. (took 0.0232 sec)
SO iteration 11: need to repeat for 0000199980 particles. (took 0.0235071 sec)
SO iteration 12: need to repeat for 0000199980 particles. (took 0.02371 sec)
SO iteration 13: need to repeat for 0000199980 particles. (took 0.023073 sec)
SO iteration 14: need to repeat for 0000199980 particles. (took 0.0231111 sec)
SO iteration 15: need to repeat for 0000199926 particles. (took 0.0230339 sec)
SO iteration 16: need to repeat for 0000129073 particles. (took 0.023103 sec)
SO iteration 17: need to repeat for 0000001533 particles. (took 0.0168231 sec)
SO iteration 18: need to repeat for 0000000058 particles. (took 0.00131798 sec)
SO iteration 19: need to repeat for 0000000003 particles. (took 0.000562191 sec)
SO iteration 1: need to repeat for 0000199980 particles. (took 0.0256281 sec)
SO iteration 2: need to repeat for 0000199980 particles. (took 0.02285 sec)
SO iteration 3: need to repeat for 0000199980 particles. (took 0.0197098 sec)
SO iteration 4: need to repeat for 0000199980 particles. (took 0.0201912 sec)
SO iteration 5: need to repeat for 0000199980 particles. (took 0.0200629 sec)
SO iteration 6: need to repeat for 0000199980 particles. (took 0.0197909 sec)
SO iteration 7: need to repeat for 0000199980 particles. (took 0.0199871 sec)
SO iteration 8: need to repeat for 0000199980 particles. (took 0.0199349 sec)
SO iteration 9: need to repeat for 0000199980 particles. (took 0.0205271 sec)
SO iteration 10: need to repeat for 0000199980 particles. (took 0.0198698 sec)
SO iteration 11: need to repeat for 0000199980 particles. (took 0.020422 sec)
SO iteration 12: need to repeat for 0000199980 particles. (took 0.0198302 sec)
SO iteration 13: need to repeat for 0000199980 particles. (took 0.0198219 sec)
SO iteration 14: need to repeat for 0000199980 particles. (took 0.0198731 sec)
SO iteration 15: need to repeat for 0000199975 particles. (took 0.0198181 sec)
SO iteration 16: need to repeat for 0000199965 particles. (took 0.0197811 sec)
SO iteration 17: need to repeat for 0000174069 particles. (took 0.0197799 sec)
SO iteration 18: need to repeat for 0000010204 particles. (took 0.0181379 sec)
SO iteration 19: need to repeat for 0000000156 particles. (took 0.00356698 sec)
SO iteration 20: need to repeat for 0000000006 particles. (took 0.000594854 sec)
determining spherical overdensity masses took 2.80237 sec
finding spherical overdensity particles took 0.623379 sec
determining contamination of halos took 0.264094 sec
Global sort of Groups took 0.164727 sec
Global sort of SubGroups took 0.672043 sec
Global sort of IDs took 0.480276 sec
Writing block 0 (GLEN), n=908, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3632d
Writing block 1 (GOFF), n=908, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3632d
Writing block 2 (MTOT), n=908, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3632d
Writing block 3 (GPOS), n=908, ptype=0, dtype=1, ndim=3, bpb=4 bytes=10896d
Writing block 4 (MMEA), n=908, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3632d
Writing block 5 (RMEA), n=908, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3632d
Writing block 6 (MCRI), n=908, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3632d
Writing block 7 (RCRI), n=908, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3632d
Writing block 8 (MTOP), n=908, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3632d
Writing block 9 (RTOP), n=908, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3632d
Writing block 17 (NCON), n=908, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3632d
Writing block 18 (MCON), n=908, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3632d
Writing block 22 (NSUB), n=908, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3632d
Writing block 23 (FSUB), n=908, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3632d
Writing block 24 (SLEN), n=2681, ptype=1, dtype=0, ndim=1, bpb=4 bytes=10724d
Writing block 25 (SOFF), n=2681, ptype=1, dtype=0, ndim=1, bpb=4 bytes=10724d
Writing block 27 (MSUB), n=2681, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 28 (SPOS), n=2681, ptype=1, dtype=1, ndim=3, bpb=4 bytes=32172d
Writing block 29 (SVEL), n=2681, ptype=1, dtype=1, ndim=3, bpb=4 bytes=32172d
Writing block 30 (SCM ), n=2681, ptype=1, dtype=1, ndim=3, bpb=4 bytes=32172d
Writing block 33 (VMAX), n=2681, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 34 (RMAX), n=2681, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 35 (RHMS), n=2681, ptype=1, dtype=1, ndim=6, bpb=4 bytes=64344d
Writing block 36 (MTRH), n=2681, ptype=1, dtype=1, ndim=6, bpb=4 bytes=64344d
Writing block 37 (MBID), n=2681, ptype=1, dtype=2, ndim=1, bpb=8 bytes=21448d
Writing block 38 (GRNR), n=2681, ptype=1, dtype=0, ndim=1, bpb=4 bytes=10724d
Writing block 39 (SUBN), n=2681, ptype=1, dtype=0, ndim=1, bpb=4 bytes=10724d
Writing block 40 (SMST), n=2681, ptype=1, dtype=1, ndim=6, bpb=4 bytes=64344d
Writing block 53 (PID ), n=408356, ptype=2, dtype=2, ndim=1, bpb=8 bytes=3266848d
Writing block 54 (SLEN), n=2681, ptype=1, dtype=0, ndim=6, bpb=4 bytes=64344d
Writing block 55 (STEN), n=2681, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 56 (SKEN), n=2681, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 57 (SUEN), n=2681, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 58 (SUIT), n=2681, ptype=1, dtype=1, ndim=9, bpb=4 bytes=96516d
Writing block 59 (BHMA), n=2681, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 60 (BHMD), n=2681, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 61 (SVD ), n=2681, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 62 (SVDH), n=2681, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 63 (HMPR), n=2681, ptype=1, dtype=1, ndim=6, bpb=4 bytes=64344d
Writing block 64 (SSFR), n=2681, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 65 (SSA ), n=2681, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 66 (SSBZ), n=2681, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 67 (SSIM), n=2681, ptype=1, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 68 (SSPI), n=2681, ptype=4, dtype=1, ndim=3, bpb=4 bytes=32172d
Writing block 69 (GSPI), n=2681, ptype=1, dtype=1, ndim=3, bpb=4 bytes=32172d
Writing block 70 (FSPI), n=2681, ptype=5, dtype=1, ndim=3, bpb=4 bytes=32172d
Writing block 71 (SFM ), n=2681, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 72 (SFMT), n=2681, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 73 (SFME), n=2681, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 74 (SFAE), n=2681, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 75 (SFKE), n=2681, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 76 (SFTE), n=2681, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 77 (SMWP), n=2681, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 78 (SMM ), n=2681, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 79 (SMMS), n=2681, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 80 (SFZ ), n=2681, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 81 (SFZS), n=2681, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 82 (SSIA), n=2681, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 83 (SIAS), n=2681, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 84 (SMET), n=2681, ptype=5, dtype=1, ndim=9, bpb=4 bytes=96516d
Writing block 85 (SMTS), n=2681, ptype=5, dtype=1, ndim=9, bpb=4 bytes=96516d
Writing block 86 (MF1 ), n=2681, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 87 (MeF1), n=2681, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 88 (MF  ), n=2681, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 89 (MeF2), n=2681, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 90 (MFA ), n=2681, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 91 (MeFA), n=2681, ptype=5, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 92 (NSPI), n=2681, ptype=6, dtype=1, ndim=3, bpb=4 bytes=32172d
Writing block 93 (NFM ), n=2681, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 94 (NFMT), n=2681, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 95 (NFME), n=2681, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 96 (NFAE), n=2681, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 97 (NFKE), n=2681, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 98 (NFTE), n=2681, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 99 (SMWP), n=2681, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 100 (SMM ), n=2681, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 101 (SMMS), n=2681, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 102 (SSIA), n=2681, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 103 (SIAS), n=2681, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 104 (SMET), n=2681, ptype=6, dtype=1, ndim=9, bpb=4 bytes=96516d
Writing block 105 (SMTS), n=2681, ptype=6, dtype=1, ndim=9, bpb=4 bytes=96516d
Writing block 106 (MF1 ), n=2681, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 107 (MeF1), n=2681, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 108 (MF2 ), n=2681, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 109 (MeF2), n=2681, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 110 (MFA ), n=2681, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 111 (MeFA), n=2681, ptype=6, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 112 (SM  ), n=2681, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 113 (SFKE), n=2681, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 114 (SFAE), n=2681, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 115 (SMWP), n=2681, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 116 (SMM ), n=2681, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 117 (SMMS), n=2681, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 118 (SSIA), n=2681, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 119 (SIAS), n=2681, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 120 (SMET), n=2681, ptype=4, dtype=1, ndim=9, bpb=4 bytes=96516d
Writing block 121 (SMTS), n=2681, ptype=4, dtype=1, ndim=9, bpb=4 bytes=96516d
Writing block 122 (MF1 ), n=2681, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 123 (MeF1), n=2681, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 124 (MF2 ), n=2681, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 125 (MeF2), n=2681, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 126 (MFA ), n=2681, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 127 (MeFA), n=2681, ptype=4, dtype=1, ndim=1, bpb=4 bytes=10724d
Writing block 128 (MMe5), n=908, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3632d
Writing block 129 (RMe5), n=908, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3632d
Writing block 130 (MCr5), n=908, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3632d
Writing block 131 (RCr5), n=908, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3632d
Writing block 132 (MMe2), n=908, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3632d
Writing block 133 (RMe2), n=908, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3632d
Writing block 134 (MCr2), n=908, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3632d
Writing block 135 (RCr2), n=908, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3632d
Writing block 136 (MAPT), n=2681, ptype=7, dtype=1, ndim=60, bpb=4 bytes=643440d
Writing block 137 (SAPT), n=2681, ptype=8, dtype=1, ndim=10, bpb=4 bytes=107240d
Writing block 138 (VAPT), n=2681, ptype=9, dtype=1, ndim=10, bpb=4 bytes=107240d
Writing block 139 (BEGY), n=408356, ptype=2, dtype=1, ndim=1, bpb=4 bytes=1633424d
Subgroup catalogues saved. took = 7.37927 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 7.056680e-01
 eagle_ph_key_ort: type= 2 timed by volker 4.637599e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.450297e-02
 eagle_ph_key_ort: type= 4 timed by volker 4.450297e-02
 eagle_ph_key_ort: type= 5 timed by volker 4.450297e-02
 eagle_ph_key_ort: timing parallel sort = 8.057709e-01
 eagle_fetch_elements: we are using 1706398195 bytes of memory, FreeBytes= 2132997744

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 1915.82 Mbyte (on task=0), Smallest = 1321.15 Mbyte, Average = 1340.47 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0436    1203.0576  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5311    1227.5888  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8852    1268.4740  fof_fof()/fof.c/337
   0 2975 0             Group      1.2980    1269.7720  fof_fof()/fof.c/380
   0 2976 0          SubGroup    621.5154    1891.2874  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5274    1915.8148  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 2091219 number of bytes = 669190080

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3543.16 Mbyte (on task=0), Smallest = 2948.36 Mbyte, Average = 2967.72 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0436    1203.0576  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5311    1227.5888  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8852    1268.4740  fof_fof()/fof.c/337
   0 2975 0             Group      1.2980    1269.7720  fof_fof()/fof.c/380
   0 2976 0          SubGroup    621.5154    1891.2874  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5274    1915.8148  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      7.9774    1923.7922  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      7.9774    1931.7696  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      7.9774    1939.7469  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    638.1894    2577.9363  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    638.1894    3216.1257  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    327.0325    3543.1582  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.684674e+00
 eagle_fetch_elements: we are using 1706398195 bytes of memory, FreeBytes= 2132997744
 eagle_fetch_elements: max_bytes= 504, max_elements= 1672939 number of bytes = 843161256
 eagle_ph_key_ort: timing parallel SphP exchange = 2.226114e-03
 eagle_fetch_elements: we are using 1706398195 bytes of memory, FreeBytes= 2132997744
 eagle_fetch_elements: max_bytes= 384, max_elements= 2187689 number of bytes = 840072576
 eagle_ph_key_ort: timing parallel MetP exchange = 4.520416e-04
 eagle_fetch_elements: we are using 1706398195 bytes of memory, FreeBytes= 2132997744
 eagle_fetch_elements: max_bytes= 256, max_elements= 3256485 number of bytes = 833660160
 eagle_ph_key_ort: timing parallel BHP exchange = 4.601479e-04
Sorting particle-data by peano-hilbert key took = 3.87252 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1706398195 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 2091219 number of bytes= 669190080
 eagle_ph_restore: timing parallel P exchange = 2.363858e+00
 eagle_send_elements: we are using 1706398195 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1672939 number of bytes= 843161256
 eagle_ph_restore: timing parallel SphP exchange = 1.528978e-03
 eagle_send_elements: we are using 1706398195 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2187689 number of bytes= 840072576
 eagle_ph_restore: timing parallel MetP exchange = 8.080006e-04
 eagle_send_elements: we are using 1706398195 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 3256485 number of bytes= 833660160
 eagle_ph_restore: timing parallel BHP exchange = 6.761551e-04
Restoring original order after ph key sorting took = 2.38374 sec

finished writing particle file...

Finished with SUBFIND.  (total time=1739.64 sec)

Finished computing FoF groups.  (presently allocated=1203.06 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=181169
After=202241
NTopleaves= 176961  NTopnodes=202241 (space for 244687)
gravity work-load balance=1.00052   memory-balance=1.00052   SPH work-load balance=0
iter=0 exchange of 0273016418 particles (ret=0)
domain decomposition done. (took 3.80838 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.94302 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
task 16: endrun called with an error level of 124


task 16: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
task 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 128: endrun called with an error level of 124


task 128: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 160: endrun called with an error level of 124


task 160: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 176: endrun called with an error level of 124


task 176: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 192: endrun called with an error level of 124


task 192: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
Finished FOF, total time doing fof/subfind = 1767.53 s
task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.65 Mb (on task=112), Smallest =   62645.79 Mb (on task=0), Average =   62686.67 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1886.27 Mb (on task=0), Smallest =    1798.41 Mb (on task=112), Average =    1845.40 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16339.12 Mb (on task=112), Average =   16351.61 Mb
AllocMem:	 Largest =    1886.27 Mb (on task=0), Smallest =    1798.41 Mb (on task=112), Average =    1845.40 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_010_z001p151/snap_010_z001p151.0.hdf5' on task=0 (contains 17319518 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  17103219  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     24940  (tot=     0000303834) masstab=0
Type 3 (bulge):   191359  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.472979

Setting next time for line of sight file to Time_next= 0.469451

Setting next time for snipshot file to Time_next= 0.472634

Setting next time for fof output to Time_next= 0.472634
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.16135 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
Before=180505
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=180505
After=198905
NTopleaves= 174042  NTopnodes=198905 (space for 244687)
gravity work-load balance=1.00056   memory-balance=1.00056   SPH work-load balance=0
iter=0 exchange of 0273215851 particles (ret=0)
domain decomposition done. (took 9.89114 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.09573 MByte in top-level domain structure

Allocated 503.29 MByte for BH-tree, and 0.663918 Mbyte for top-leaves.  (presently allocted 1706.83 MB)

Begin Ngb-tree construction.
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1753.01 Mbyte (on task=58), Smallest = 1752.92 Mbyte, Average = 1753 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  58 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
  58 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
  58 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
  58 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
  58 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
  58 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
  58 2972 0          TopNodes      9.8639    1202.8790  domain_allocate()/domain.c/570
  58 2973 0   DomainNodeIndex      0.6639    1203.5429  force_treeallocate()/forcetree.c/4800
  58 2974 0        Nodes_base    258.5043    1462.0471  force_treeallocate()/forcetree.c/4803
  58 2975 0     Extnodes_base    215.4202    1677.4674  force_treeallocate()/forcetree.c/4811
  58 2976 0          Nextnode     15.0620    1692.5294  force_treeallocate()/forcetree.c/4820
  58 2977 0            Father     14.3032    1706.8326  force_treeallocate()/forcetree.c/4827
  58 2978 0           Ngblist      4.0889    1710.9215  density()/density.c/690
  58 2979 0              Left      8.1778    1719.0993  density()/density.c/692
  58 2980 0             Right      8.1778    1727.2772  density()/density.c/693
  58 2981 0    DataIndexTable      7.0175    1734.2947  density()/density.c/738
  58 2982 0      DataNodeList     18.7134    1753.0081  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_1.053.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_1.154.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.83 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=182969
After=202889
NTopleaves= 177528  NTopnodes=202889 (space for 244687)
gravity work-load balance=1.00068   memory-balance=1.00068   SPH work-load balance=0
iter=0 exchange of 0273150985 particles (ret=0)
domain decomposition done. (took 3.8191 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.91336 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1203.08 MB)
Tree construction.

Start linking particles (presently allocated=1756.58 MB)
links on local processor done (took 5.52177 sec).
Marked=0043346866 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1858.12 MB) 
have done 0000950249 cross links (processed 0043346866, took 1.98462 sec)
have done 0000385585 cross links (processed 0030310721, took 1.81637 sec)
have done 0000254798 cross links (processed 0023984218, took 1.46314 sec)
have done 0000155015 cross links (processed 0014491068, took 1.01902 sec)
have done 0000090631 cross links (processed 0008630456, took 1.24373 sec)
have done 0000051780 cross links (processed 0005464630, took 1.13414 sec)
have done 0000029944 cross links (processed 0002491483, took 0.632158 sec)
have done 0000017080 cross links (processed 0001057752, took 0.223833 sec)
have done 0000008996 cross links (processed 0000513875, took 0.150466 sec)
have done 0000004437 cross links (processed 0000157950, took 0.0909181 sec)
have done 0000001987 cross links (processed 0000072698, took 0.092838 sec)
have done 0000000877 cross links (processed 0000034438, took 0.0722799 sec)
have done 0000000486 cross links (processed 0000025786, took 0.078084 sec)
have done 0000000191 cross links (processed 0000004039, took 0.0453961 sec)
have done 0000000065 cross links (processed 0000000955, took 0.0448208 sec)
have done 0000000017 cross links (processed 0000000271, took 0.0444031 sec)
have done 0000000011 cross links (processed 0000000088, took 0.044239 sec)
have done 0000000002 cross links (processed 0000000040, took 0.0444129 sec)
have done 0000000000 cross links (processed 0000000007, took 0.0443468 sec)
Local groups found.

group finding took = 15.8839 sec
Start finding nearest dm-particle (presently allocated=1756.58 MB)
still finding nearest... (presently allocated=1845.99 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.109457 sec
compiling local group data and catalogue took = 0.688291 sec

Total number of groups with at least 32 particles: 227692
Largest group has 6166507 particles.
Total number of particles in groups: 0113883442

group properties are now allocated.. (presently allocated=1269.36 MB)
computation of group properties took = 0.0606539 sec
start global sorting of group catalogues number 10
LargestGroup = 4854.084424; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0525768 sec
Group catalogues globally sorted. took = 0.732329 sec
starting saving of group catalogue number 10
data//groups_010_z001p151
Group catalogues number 10 saved. took = 2.22526 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.710376 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.268978 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.704314 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0184707306 particles. (took 20.6432 sec)
ngb iteration 2: need to repeat for 0145215795 particles. (took 9.42279 sec)
ngb iteration 3: need to repeat for 0125673479 particles. (took 7.04715 sec)
ngb iteration 4: need to repeat for 0113914384 particles. (took 5.55099 sec)
ngb iteration 5: need to repeat for 0102149190 particles. (took 4.81644 sec)
ngb iteration 6: need to repeat for 0086209278 particles. (took 4.31361 sec)
ngb iteration 7: need to repeat for 0066406028 particles. (took 3.6957 sec)
ngb iteration 8: need to repeat for 0046596514 particles. (took 3.05508 sec)
ngb iteration 9: need to repeat for 0030266259 particles. (took 2.30416 sec)
ngb iteration 10: need to repeat for 0018582064 particles. (took 1.61375 sec)
ngb iteration 11: need to repeat for 0010983971 particles. (took 1.07574 sec)
ngb iteration 12: need to repeat for 0006347265 particles. (took 0.647011 sec)
ngb iteration 13: need to repeat for 0003614839 particles. (took 0.39567 sec)
ngb iteration 14: need to repeat for 0001958930 particles. (took 0.256432 sec)
ngb iteration 15: need to repeat for 0000928905 particles. (took 0.186294 sec)
ngb iteration 16: need to repeat for 0000440637 particles. (took 0.106527 sec)
ngb iteration 17: need to repeat for 0000213178 particles. (took 0.0752411 sec)
ngb iteration 18: need to repeat for 0000104277 particles. (took 0.059799 sec)
ngb iteration 19: need to repeat for 0000050496 particles. (took 0.0518849 sec)
ngb iteration 20: need to repeat for 0000024012 particles. (took 0.0470271 sec)
ngb iteration 21: need to repeat for 0000010924 particles. (took 0.0444441 sec)
ngb iteration 22: need to repeat for 0000004784 particles. (took 0.0424531 sec)
ngb iteration 23: need to repeat for 0000001968 particles. (took 0.0417988 sec)
ngb iteration 24: need to repeat for 0000000782 particles. (took 0.040648 sec)
ngb iteration 25: need to repeat for 0000000267 particles. (took 0.041419 sec)
ngb iteration 26: need to repeat for 0000000085 particles. (took 0.0403731 sec)
ngb iteration 27: need to repeat for 0000000023 particles. (took 0.0403559 sec)
ngb iteration 28: need to repeat for 0000000007 particles. (took 0.0407329 sec)
ngb iteration 29: need to repeat for 0000000004 particles. (took 0.040767 sec)
ngb iteration 30: need to repeat for 0000000002 particles. (took 0.040297 sec)
final operations ... 
density and smoothing length for species 1 took 66.1415 sec
Tree construction.
tree build took 0.707887 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.26918 sec
Tree construction.
tree build took 0.70601 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.269074 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.170477 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.95083 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.705515 sec
density() of species 1 took 3.09944e-06 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.169691 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 2.01113 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.171672 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 2.02597 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.950168 sec
saving densities took 2.58488 sec

Number of FOF halos treated with collective SubFind code = 3
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 227689 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 24956 - 54225605 

subfind_exchange()() took 1.58777 sec

collectively doing halo 1, num=10
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1966.74 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2026.29 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 2026.29 Mbyte (on task=0), Smallest = 1356.12 Mbyte, Average = 1377.54 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0615    1203.0755  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.4280    1227.5034  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.7133    1268.2167  fof_fof()/fof.c/337
   0 2975 0             Group      1.1476    1269.3643  fof_fof()/fof.c/380
   0 2976 0          SubGroup    697.3729    1966.7372  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    1978.9965  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    2007.6029  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    2008.5480  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    2009.4814  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    2010.4148  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    2011.3482  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    2012.2856  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    2013.2229  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    2026.2906  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=134945
After=164145
NTopleaves= 143627  NTopnodes=164145 (space for 244687)
gravity work-load balance=1.00046   memory-balance=1.00046   SPH work-load balance=0
iter=0 exchange of 0006142772 particles (ret=0)
domain decomposition done. (took 0.854518 sec)
Freed 3.68692 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 2472.87 Mbyte (on task=0), Smallest = 1802.7 Mbyte, Average = 1824.12 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0615    1203.0755  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.4280    1227.5034  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.7133    1268.2167  fof_fof()/fof.c/337
   0 2975 0             Group      1.1476    1269.3643  fof_fof()/fof.c/380
   0 2976 0          SubGroup    697.3729    1966.7372  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.1401    1975.0023  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5479    1975.5502  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    255.3219    2230.8721  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base    212.7682    2443.6403  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9294    2458.5697  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    2472.8729  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.25981 sec  (presently allocated=2472.87 MB)
force_treebuild() took 1.23086 sec (presently allocated=2472.87 MB)
Start find_linkngb (24005 particles on task=0)
find linkngb iteration 1: need to repeat for 0006100748 particles. (took 0.476135 sec)
find linkngb iteration 2: need to repeat for 0005841234 particles. (took 0.320578 sec)
find linkngb iteration 3: need to repeat for 0005577395 particles. (took 0.236588 sec)
find linkngb iteration 4: need to repeat for 0004942836 particles. (took 0.270977 sec)
find linkngb iteration 5: need to repeat for 0004128330 particles. (took 0.211367 sec)
find linkngb iteration 6: need to repeat for 0002996954 particles. (took 0.176434 sec)
find linkngb iteration 7: need to repeat for 0001885332 particles. (took 0.126831 sec)
find linkngb iteration 8: need to repeat for 0001071555 particles. (took 0.0841291 sec)
find linkngb iteration 9: need to repeat for 0000574071 particles. (took 0.0534561 sec)
find linkngb iteration 10: need to repeat for 0000297549 particles. (took 0.0463479 sec)
find linkngb iteration 11: need to repeat for 0000151192 particles. (took 0.0390441 sec)
find linkngb iteration 12: need to repeat for 0000032767 particles. (took 0.0209241 sec)
find linkngb iteration 13: need to repeat for 0000000444 particles. (took 0.0249019 sec)
find linkngb iteration 14: need to repeat for 0000000082 particles. (took 0.00070405 sec)
find linkngb iteration 15: need to repeat for 0000000010 particles. (took 0.000651121 sec)
find linkngb iteration 16: need to repeat for 0000000001 particles. (took 0.000452042 sec)
find_linkngb() took 2.09081 sec
Start finding nearest two (24005 particles on task=0)
find_nearesttwo() took 0.395711 sec (presently allocated=2474.7 MB)
parallel sort of densities done. took 0.0538039 sec
building distributed linked list. (presently allocated 2474.47 MB)
identification of primary candidates took 155.523 sec
adding background as candidate took 0.158992 sec
establishing of rank order took 50.6581 sec  (p=6166507, grouplen=6166507) presently allocated 2474.47 MB

total number of subhalo candidates=28075

number of subhalo candidates that can be done independently=24582.
(Largest size is 1770, finding them took 0.00757599 sec)
particles are marked (took 33.8955)
independent subhalos are assembled on individual CPUs for unbinding (0.153484 sec, (presently allocated=2474.47 MB)
unbinding of independent ones took 0.03932 sec
particles have returned to their original processor (0.20071 sec, presently allocated 2474.47 MB)

number of subhalo candidates that can be done independently=3148.
(Largest size is 10600, finding them took 0.672533 sec)
particles are marked (took 22.7533)
independent subhalos are assembled on individual CPUs for unbinding (0.151131 sec, (presently allocated=2474.47 MB)
unbinding of independent ones took 0.220097 sec
particles have returned to their original processor (0.201376 sec, presently allocated 2474.47 MB)

number of subhalo candidates that can be done independently=306.
(Largest size is 35699, finding them took 0.669907 sec)
particles are marked (took 17.5845)
independent subhalos are assembled on individual CPUs for unbinding (0.151379 sec, (presently allocated=2474.47 MB)
unbinding of independent ones took 1.23797 sec
particles have returned to their original processor (0.208276 sec, presently allocated 2474.47 MB)

number of subhalo candidates that can be done independently=36.
(Largest size is 53114, finding them took 0.437689 sec)
particles are marked (took 15.9273)
independent subhalos are assembled on individual CPUs for unbinding (0.145225 sec, (presently allocated=2474.47 MB)
unbinding of independent ones took 1.02571 sec
particles have returned to their original processor (0.202084 sec, presently allocated 2474.47 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 5894, finding them took 0.391073 sec)
particles are marked (took 12.7595)
independent subhalos are assembled on individual CPUs for unbinding (0.134013 sec, (presently allocated=2474.47 MB)
unbinding of independent ones took 0.0987129 sec
particles have returned to their original processor (0.186649 sec, presently allocated 2474.47 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 32541, finding them took 0.389784 sec)
particles are marked (took 13.232)
independent subhalos are assembled on individual CPUs for unbinding (0.139162 sec, (presently allocated=2474.47 MB)
unbinding of independent ones took 0.839205 sec
particles have returned to their original processor (0.196523 sec, presently allocated 2474.47 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 6166507, finding them took 0.395567 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=6166507 ... maximum alloacted 2474.56 MB
took 104.596 sec

the collective unbinding of remaining halos took 116.894 sec

found 1910 bound substructures in FoF group of length 6166507
determination of parent subhalo took 0.040061 sec (presently allocated 2474.56 MB)
determining substructure properties took 119.754 sec (presently allocated 2474.56 MB)

collectively doing halo 2, num=10
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1966.74 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2026.29 MB)
Before=140105
After=168361
NTopleaves= 147316  NTopnodes=168361 (space for 244687)
gravity work-load balance=1.00047   memory-balance=1.00047   SPH work-load balance=0
iter=0 exchange of 0005719538 particles (ret=0)
domain decomposition done. (took 0.87928 sec)
Freed 3.49393 MByte in top-level domain structure
coldomain_Decomposition() took 1.27488 sec  (presently allocated=2473.82 MB)
force_treebuild() took 1.23162 sec (presently allocated=2473.82 MB)
Start find_linkngb (22369 particles on task=0)
find linkngb iteration 1: need to repeat for 0005682220 particles. (took 0.428694 sec)
find linkngb iteration 2: need to repeat for 0005444628 particles. (took 0.288939 sec)
find linkngb iteration 3: need to repeat for 0005200539 particles. (took 0.195325 sec)
find linkngb iteration 4: need to repeat for 0004611443 particles. (took 0.222699 sec)
find linkngb iteration 5: need to repeat for 0003848719 particles. (took 0.190479 sec)
find linkngb iteration 6: need to repeat for 0002792963 particles. (took 0.158219 sec)
find linkngb iteration 7: need to repeat for 0001757018 particles. (took 0.115473 sec)
find linkngb iteration 8: need to repeat for 0000998524 particles. (took 0.0774438 sec)
find linkngb iteration 9: need to repeat for 0000534245 particles. (took 0.0500851 sec)
find linkngb iteration 10: need to repeat for 0000276634 particles. (took 0.033052 sec)
find linkngb iteration 11: need to repeat for 0000140463 particles. (took 0.0223911 sec)
find linkngb iteration 12: need to repeat for 0000030180 particles. (took 0.016088 sec)
find linkngb iteration 13: need to repeat for 0000000475 particles. (took 0.00914598 sec)
find linkngb iteration 14: need to repeat for 0000000084 particles. (took 0.000721931 sec)
find linkngb iteration 15: need to repeat for 0000000013 particles. (took 0.000483036 sec)
find linkngb iteration 16: need to repeat for 0000000002 particles. (took 0.000437975 sec)
find_linkngb() took 1.81063 sec
Start finding nearest two (22369 particles on task=0)
find_nearesttwo() took 0.377652 sec (presently allocated=2475.53 MB)
parallel sort of densities done. took 0.0936661 sec
building distributed linked list. (presently allocated 2475.3 MB)
identification of primary candidates took 147.741 sec
adding background as candidate took 0.156419 sec
establishing of rank order took 47.8841 sec  (p=5740149, grouplen=5740149) presently allocated 2475.3 MB

total number of subhalo candidates=25258

number of subhalo candidates that can be done independently=22213.
(Largest size is 2467, finding them took 0.00694513 sec)
particles are marked (took 30.5532)
independent subhalos are assembled on individual CPUs for unbinding (0.149457 sec, (presently allocated=2475.3 MB)
unbinding of independent ones took 0.0548179 sec
particles have returned to their original processor (0.197316 sec, presently allocated 2475.3 MB)

number of subhalo candidates that can be done independently=2740.
(Largest size is 17125, finding them took 0.655207 sec)
particles are marked (took 20.5376)
independent subhalos are assembled on individual CPUs for unbinding (0.150579 sec, (presently allocated=2475.3 MB)
unbinding of independent ones took 0.521406 sec
particles have returned to their original processor (0.200936 sec, presently allocated 2475.3 MB)

number of subhalo candidates that can be done independently=275.
(Largest size is 39807, finding them took 0.663075 sec)
particles are marked (took 17.1856)
independent subhalos are assembled on individual CPUs for unbinding (0.146452 sec, (presently allocated=2475.3 MB)
unbinding of independent ones took 0.841956 sec
particles have returned to their original processor (0.199261 sec, presently allocated 2475.3 MB)

number of subhalo candidates that can be done independently=27.
(Largest size is 81935, finding them took 0.746175 sec)
particles are marked (took 16.1498)
independent subhalos are assembled on individual CPUs for unbinding (0.147286 sec, (presently allocated=2475.3 MB)
unbinding of independent ones took 2.07824 sec
particles have returned to their original processor (0.206893 sec, presently allocated 2475.3 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 163898, finding them took 0.390193 sec)
particles are marked (took 13.3306)
independent subhalos are assembled on individual CPUs for unbinding (0.140865 sec, (presently allocated=2475.3 MB)
unbinding of independent ones took 4.21435 sec
particles have returned to their original processor (0.208652 sec, presently allocated 2475.3 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 163898, finding them took 0.389244 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=163898 ... maximum alloacted 2475.39 MB
took 4.84064 sec
collective unbinding of nr=1 (2) of length=5740149 ... maximum alloacted 2475.39 MB
took 108.75 sec

the collective unbinding of remaining halos took 124.679 sec

found 2024 bound substructures in FoF group of length 5740149
determination of parent subhalo took 0.0426719 sec (presently allocated 2475.39 MB)
determining substructure properties took 120.017 sec (presently allocated 2475.39 MB)

collectively doing halo 3, num=10
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1966.74 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2026.29 MB)
Before=148625
After=169561
NTopleaves= 148366  NTopnodes=169561 (space for 244687)
gravity work-load balance=1.00044   memory-balance=1.00044   SPH work-load balance=0
iter=0 exchange of 0002649674 particles (ret=0)
domain decomposition done. (took 0.846335 sec)
Freed 3.439 MByte in top-level domain structure
coldomain_Decomposition() took 1.23809 sec  (presently allocated=2474.09 MB)
force_treebuild() took 1.19799 sec (presently allocated=2474.09 MB)
Start find_linkngb (10386 particles on task=0)
find linkngb iteration 1: need to repeat for 0002654869 particles. (took 0.18306 sec)
find linkngb iteration 2: need to repeat for 0002611408 particles. (took 0.118008 sec)
find linkngb iteration 3: need to repeat for 0002503348 particles. (took 0.08426 sec)
find linkngb iteration 4: need to repeat for 0002249228 particles. (took 0.112771 sec)
find linkngb iteration 5: need to repeat for 0001889040 particles. (took 0.0847139 sec)
find linkngb iteration 6: need to repeat for 0001375516 particles. (took 0.0718672 sec)
find linkngb iteration 7: need to repeat for 0000868782 particles. (took 0.0558951 sec)
find linkngb iteration 8: need to repeat for 0000494930 particles. (took 0.038583 sec)
find linkngb iteration 9: need to repeat for 0000264950 particles. (took 0.027046 sec)
find linkngb iteration 10: need to repeat for 0000137027 particles. (took 0.0183332 sec)
find linkngb iteration 11: need to repeat for 0000069455 particles. (took 0.0137129 sec)
find linkngb iteration 12: need to repeat for 0000015170 particles. (took 0.0106878 sec)
find linkngb iteration 13: need to repeat for 0000000376 particles. (took 0.00661182 sec)
find linkngb iteration 14: need to repeat for 0000000069 particles. (took 0.000643969 sec)
find linkngb iteration 15: need to repeat for 0000000010 particles. (took 0.000368834 sec)
find linkngb iteration 16: need to repeat for 0000000001 particles. (took 0.000338078 sec)
find_linkngb() took 0.827705 sec
Start finding nearest two (10386 particles on task=0)
find_nearesttwo() took 0.164646 sec (presently allocated=2474.88 MB)
parallel sort of densities done. took 0.044059 sec
building distributed linked list. (presently allocated 2474.78 MB)
identification of primary candidates took 76.4765 sec
adding background as candidate took 0.158902 sec
establishing of rank order took 22.9944 sec  (p=2658402, grouplen=2658402) presently allocated 2474.78 MB

total number of subhalo candidates=9881

number of subhalo candidates that can be done independently=8829.
(Largest size is 2099, finding them took 0.00311804 sec)
particles are marked (took 12.652)
independent subhalos are assembled on individual CPUs for unbinding (0.139017 sec, (presently allocated=2474.78 MB)
unbinding of independent ones took 0.032691 sec
particles have returned to their original processor (0.187917 sec, presently allocated 2474.78 MB)

number of subhalo candidates that can be done independently=935.
(Largest size is 6994, finding them took 0.649401 sec)
particles are marked (took 8.50728)
independent subhalos are assembled on individual CPUs for unbinding (0.142254 sec, (presently allocated=2474.78 MB)
unbinding of independent ones took 0.157775 sec
particles have returned to their original processor (0.193381 sec, presently allocated 2474.78 MB)

number of subhalo candidates that can be done independently=100.
(Largest size is 56132, finding them took 0.867965 sec)
particles are marked (took 7.8787)
independent subhalos are assembled on individual CPUs for unbinding (0.151882 sec, (presently allocated=2474.78 MB)
unbinding of independent ones took 1.25763 sec
particles have returned to their original processor (0.215425 sec, presently allocated 2474.78 MB)

number of subhalo candidates that can be done independently=13.
(Largest size is 61286, finding them took 0.480589 sec)
particles are marked (took 7.61959)
independent subhalos are assembled on individual CPUs for unbinding (0.148746 sec, (presently allocated=2474.78 MB)
unbinding of independent ones took 1.9436 sec
particles have returned to their original processor (0.211141 sec, presently allocated 2474.78 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 363386, finding them took 0.380874 sec)
particles are marked (took 4.72044)
independent subhalos are assembled on individual CPUs for unbinding (0.135479 sec, (presently allocated=2474.78 MB)
unbinding of independent ones took 0.284411 sec
particles have returned to their original processor (0.186928 sec, presently allocated 2474.78 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 363386, finding them took 0.335023 sec)
too few, I do the rest of 3 collectively

collective unbinding of nr=0 (3) of length=363386 ... maximum alloacted 2474.82 MB
took 10.3307 sec
collective unbinding of nr=1 (3) of length=345559 ... maximum alloacted 2474.82 MB
took 8.54629 sec
collective unbinding of nr=2 (3) of length=2658402 ... maximum alloacted 2474.82 MB
took 63.7726 sec

the collective unbinding of remaining halos took 87.0143 sec

found 1291 bound substructures in FoF group of length 2658402
determination of parent subhalo took 0.0426469 sec (presently allocated 2474.82 MB)
determining substructure properties took 70.5888 sec (presently allocated 2474.82 MB)
processing of collective halos took 1464.88 sec
sort of local particles()() took 0.626688 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 337.645 sec

Task 202: testing particles ...
Task 217: testing particles ...
Task 235: testing particles ...
Task 239: testing particles ...
Task 176: testing particles ...
Task 243: testing particles ...
Task 190: testing particles ...
Task 242: testing particles ...
Task 141: testing particles ...
Task 195: testing particles ...
Task 2: testing particles ...
Task 205: testing particles ...
Task 187: testing particles ...
Task 253: testing particles ...
unsorting of local particles()() took 0.511189 sec
Task 0: testing particles ...
Task 157: testing particles ...
Task 165: testing particles ...
Task 192: testing particles ...
Task 152: testing particles ...
Task 1: testing particles ...
Task 252: testing particles ...
Task 246: testing particles ...
Task 220: testing particles ...
Task 186: testing particles ...
Task 155: testing particles ...
Task 229: testing particles ...
Task 140: testing particles ...
Task 193: testing particles ...
Task 210: testing particles ...
Task 119: testing particles ...
Task 206: testing particles ...
Task 179: testing particles ...
Task 222: testing particles ...
Task 131: testing particles ...
Task 219: testing particles ...
Task 209: testing particles ...
Task 245: testing particles ...
Task 185: testing particles ...
Task 234: testing particles ...
Task 102: testing particles ...
Task 230: testing particles ...
Task 146: testing particles ...
Task 250: testing particles ...
Task 167: testing particles ...
Task 106: testing particles ...
Task 223: testing particles ...
Task 174: testing particles ...
Task 133: testing particles ...
Task 231: testing particles ...
Task 226: testing particles ...
Task 208: testing particles ...
Task 101: testing particles ...
Task 127: testing particles ...
Task 177: testing particles ...
Task 121: testing particles ...
Task 99: testing particles ...
Task 116: testing particles ...
Task 110: testing particles ...
Task 62: testing particles ...
Task 214: testing particles ...
Task 233: testing particles ...
Task 173: testing particles ...
Task 248: testing particles ...
Task 228: testing particles ...
Task 194: testing particles ...
Task 227: testing particles ...
Task 221: testing particles ...
Task 236: testing particles ...
Task 169: testing particles ...
Task 188: testing particles ...
Task 225: testing particles ...
Task 75: testing particles ...
Task 118: testing particles ...
Task 211: testing particles ...
Task 120: testing particles ...
Task 89: testing particles ...
Task 255: testing particles ...
Task 135: testing particles ...
Task 183: testing particles ...
Task 153: testing particles ...
Task 200: testing particles ...
Task 244: testing particles ...
Task 199: testing particles ...
Task 108: testing particles ...
Task 196: testing particles ...
Task 215: testing particles ...
Task 124: testing particles ...
Task 171: testing particles ...
Task 204: testing particles ...
Task 166: testing particles ...
Task 78: testing particles ...
Task 112: testing particles ...
Task 79: testing particles ...
Task 139: testing particles ...
Task 97: testing particles ...
Task 207: testing particles ...
Task 197: testing particles ...
Task 164: testing particles ...
Task 159: testing particles ...
Task 249: testing particles ...
Task 145: testing particles ...
Task 123: testing particles ...
Task 191: testing particles ...
Task 126: testing particles ...
Task 69: testing particles ...
Task 94: testing particles ...
Task 85: testing particles ...
Task 180: testing particles ...
Task 162: testing particles ...
Task 148: testing particles ...
Task 66: testing particles ...
Task 74: testing particles ...
Task 203: testing particles ...
Task 251: testing particles ...
Task 142: testing particles ...
Task 238: testing particles ...
Task 216: testing particles ...
Task 254: testing particles ...
Task 117: testing particles ...
Task 213: testing particles ...
Task 136: testing particles ...
Task 241: testing particles ...
Task 103: testing particles ...
Task 80: testing particles ...
Task 143: testing particles ...
Task 151: testing particles ...
Task 83: testing particles ...
Task 129: testing particles ...
Task 150: testing particles ...
Task 198: testing particles ...
Task 156: testing particles ...
Task 144: testing particles ...
Task 76: testing particles ...
Task 107: testing particles ...
Task 178: testing particles ...
Task 84: testing particles ...
Task 247: testing particles ...
Task 122: testing particles ...
Task 240: testing particles ...
Task 161: testing particles ...
Task 132: testing particles ...
Task 184: testing particles ...
Task 111: testing particles ...
Task 138: testing particles ...
Task 175: testing particles ...
Task 130: testing particles ...
Task 134: testing particles ...
Task 96: testing particles ...
Task 109: testing particles ...
Task 64: testing particles ...
Task 81: testing particles ...
Task 137: testing particles ...
Task 50: testing particles ...
Task 128: testing particles ...
Task 160: testing particles ...
Task 70: testing particles ...
Task 91: testing particles ...
Task 163: testing particles ...
Task 218: testing particles ...
Task 149: testing particles ...
Task 55: testing particles ...
Task 54: testing particles ...
Task 201: testing particles ...
Task 154: testing particles ...
Task 232: testing particles ...
Task 189: testing particles ...
Task 82: testing particles ...
Task 237: testing particles ...
Task 92: testing particles ...
Task 77: testing particles ...
Task 224: testing particles ...
Task 57: testing particles ...
Task 88: testing particles ...
Task 147: testing particles ...
Task 125: testing particles ...
Task 95: testing particles ...
Task 212: testing particles ...
Task 158: testing particles ...
Task 98: testing particles ...
Task 182: testing particles ...
Task 63: testing particles ...
Task 68: testing particles ...
Task 114: testing particles ...
Task 104: testing particles ...
Task 170: testing particles ...
Task 172: testing particles ...
Task 38: testing particles ...
Task 100: testing particles ...
Task 58: testing particles ...
Task 113: testing particles ...
Task 59: testing particles ...
Task 181: testing particles ...
Task 43: testing particles ...
Task 115: testing particles ...
Task 53: testing particles ...
Task 61: testing particles ...
Task 71: testing particles ...
Task 60: testing particles ...
Task 90: testing particles ...
Task 37: testing particles ...
Task 168: testing particles ...
Task 27: testing particles ...
Task 87: testing particles ...
Task 49: testing particles ...
Task 105: testing particles ...
Task 47: testing particles ...
Task 86: testing particles ...
Task 45: testing particles ...
Task 73: testing particles ...
Task 41: testing particles ...
Task 56: testing particles ...
Task 72: testing particles ...
Task 65: testing particles ...
Task 32: testing particles ...
Task 67: testing particles ...
Task 93: testing particles ...
Task 51: testing particles ...
Task 39: testing particles ...
Task 44: testing particles ...
Task 40: testing particles ...
Task 52: testing particles ...
Task 23: testing particles ...
Task 36: testing particles ...
Task 48: testing particles ...
Task 30: testing particles ...
Task 28: testing particles ...
Task 46: testing particles ...
Task 29: testing particles ...
Task 25: testing particles ...
Task 42: testing particles ...
Task 31: testing particles ...
Task 34: testing particles ...
Task 26: testing particles ...
Task 35: testing particles ...
Task 24: testing particles ...
Task 22: testing particles ...
Task 33: testing particles ...
Task 21: testing particles ...
Task 19: testing particles ...
Task 20: testing particles ...
Task 15: testing particles ...
Task 18: testing particles ...
Task 17: testing particles ...
Task 16: testing particles ...
Task 12: testing particles ...
Task 13: testing particles ...
Task 14: testing particles ...
Task 6: testing particles ...
Task 11: testing particles ...
Task 10: testing particles ...
Task 9: testing particles ...
Task 5: testing particles ...
Task 7: testing particles ...
Task 3: testing particles ...
Task 4: testing particles ...
Task 8: testing particles ...
subfind_exchange() (for return to original CPU)  took 2.8138 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1966.74 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2026.29 MB)
Before=187913
After=206801
NTopleaves= 180951  NTopnodes=206801 (space for 244687)
gravity work-load balance=1.00046   memory-balance=1.00046   SPH work-load balance=0
iter=0 exchange of 0273360896 particles (ret=0)
domain decomposition done. (took 4.52847 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.73428 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000194948 particles. (took 0.026403 sec)
SO iteration 2: need to repeat for 0000194948 particles. (took 0.0244598 sec)
SO iteration 3: need to repeat for 0000194948 particles. (took 0.0255489 sec)
SO iteration 4: need to repeat for 0000194948 particles. (took 0.0257351 sec)
SO iteration 5: need to repeat for 0000194948 particles. (took 0.0257552 sec)
SO iteration 6: need to repeat for 0000194948 particles. (took 0.0260551 sec)
SO iteration 7: need to repeat for 0000194948 particles. (took 0.0260351 sec)
SO iteration 8: need to repeat for 0000194948 particles. (took 0.0259449 sec)
SO iteration 9: need to repeat for 0000194948 particles. (took 0.0257981 sec)
SO iteration 10: need to repeat for 0000194948 particles. (took 0.026041 sec)
SO iteration 11: need to repeat for 0000194948 particles. (took 0.0256429 sec)
SO iteration 12: need to repeat for 0000194948 particles. (took 0.0257251 sec)
SO iteration 13: need to repeat for 0000194948 particles. (took 0.02564 sec)
SO iteration 14: need to repeat for 0000194948 particles. (took 0.025738 sec)
SO iteration 15: need to repeat for 0000194574 particles. (took 0.025656 sec)
SO iteration 16: need to repeat for 0000001221 particles. (took 0.025718 sec)
SO iteration 17: need to repeat for 0000000056 particles. (took 0.0015049 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.00080514 sec)
SO iteration 1: need to repeat for 0000194948 particles. (took 0.0262091 sec)
SO iteration 2: need to repeat for 0000194948 particles. (took 0.0233662 sec)
SO iteration 3: need to repeat for 0000194948 particles. (took 0.0247939 sec)
SO iteration 4: need to repeat for 0000194948 particles. (took 0.024533 sec)
SO iteration 5: need to repeat for 0000194948 particles. (took 0.0241561 sec)
SO iteration 6: need to repeat for 0000194948 particles. (took 0.0246141 sec)
SO iteration 7: need to repeat for 0000194948 particles. (took 0.0245061 sec)
SO iteration 8: need to repeat for 0000194948 particles. (took 0.024267 sec)
SO iteration 9: need to repeat for 0000194948 particles. (took 0.0243239 sec)
SO iteration 10: need to repeat for 0000194948 particles. (took 0.024452 sec)
SO iteration 11: need to repeat for 0000194948 particles. (took 0.02426 sec)
SO iteration 12: need to repeat for 0000194948 particles. (took 0.024085 sec)
SO iteration 13: need to repeat for 0000194948 particles. (took 0.0241148 sec)
SO iteration 14: need to repeat for 0000194948 particles. (took 0.024132 sec)
SO iteration 15: need to repeat for 0000194871 particles. (took 0.024193 sec)
SO iteration 16: need to repeat for 0000059432 particles. (took 0.0242229 sec)
SO iteration 17: need to repeat for 0000000682 particles. (took 0.0117772 sec)
SO iteration 18: need to repeat for 0000000054 particles. (took 0.00115609 sec)
SO iteration 19: need to repeat for 0000000002 particles. (took 0.00078392 sec)
SO iteration 1: need to repeat for 0000194948 particles. (took 0.0265381 sec)
SO iteration 2: need to repeat for 0000194948 particles. (took 0.02353 sec)
SO iteration 3: need to repeat for 0000194948 particles. (took 0.020359 sec)
SO iteration 4: need to repeat for 0000194948 particles. (took 0.0209432 sec)
SO iteration 5: need to repeat for 0000194948 particles. (took 0.0206461 sec)
SO iteration 6: need to repeat for 0000194948 particles. (took 0.021173 sec)
SO iteration 7: need to repeat for 0000194948 particles. (took 0.0212512 sec)
SO iteration 8: need to repeat for 0000194948 particles. (took 0.0231462 sec)
SO iteration 9: need to repeat for 0000194948 particles. (took 0.021286 sec)
SO iteration 10: need to repeat for 0000194948 particles. (took 0.021347 sec)
SO iteration 11: need to repeat for 0000194948 particles. (took 0.0212722 sec)
SO iteration 12: need to repeat for 0000194948 particles. (took 0.0209479 sec)
SO iteration 13: need to repeat for 0000194948 particles. (took 0.020674 sec)
SO iteration 14: need to repeat for 0000194948 particles. (took 0.0206752 sec)
SO iteration 15: need to repeat for 0000194944 particles. (took 0.020664 sec)
SO iteration 16: need to repeat for 0000194930 particles. (took 0.020648 sec)
SO iteration 17: need to repeat for 0000117312 particles. (took 0.0206351 sec)
SO iteration 18: need to repeat for 0000003697 particles. (took 0.0150011 sec)
SO iteration 19: need to repeat for 0000000111 particles. (took 0.00205493 sec)
SO iteration 20: need to repeat for 0000000008 particles. (took 0.000735044 sec)
SO iteration 1: need to repeat for 0000194948 particles. (took 0.0262399 sec)
SO iteration 2: need to repeat for 0000194948 particles. (took 0.024539 sec)
SO iteration 3: need to repeat for 0000194948 particles. (took 0.0259011 sec)
SO iteration 4: need to repeat for 0000194948 particles. (took 0.025552 sec)
SO iteration 5: need to repeat for 0000194948 particles. (took 0.0257089 sec)
SO iteration 6: need to repeat for 0000194948 particles. (took 0.025738 sec)
SO iteration 7: need to repeat for 0000194948 particles. (took 0.026891 sec)
SO iteration 8: need to repeat for 0000194948 particles. (took 0.0257671 sec)
SO iteration 9: need to repeat for 0000194948 particles. (took 0.026037 sec)
SO iteration 10: need to repeat for 0000194948 particles. (took 0.026026 sec)
SO iteration 11: need to repeat for 0000194948 particles. (took 0.0261061 sec)
SO iteration 12: need to repeat for 0000194948 particles. (took 0.026062 sec)
SO iteration 13: need to repeat for 0000194948 particles. (took 0.0260499 sec)
SO iteration 14: need to repeat for 0000194948 particles. (took 0.026185 sec)
SO iteration 15: need to repeat for 0000194561 particles. (took 0.0280819 sec)
SO iteration 16: need to repeat for 0000001177 particles. (took 0.0254631 sec)
SO iteration 17: need to repeat for 0000000053 particles. (took 0.00125694 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.00056386 sec)
SO iteration 1: need to repeat for 0000194948 particles. (took 0.0267739 sec)
SO iteration 2: need to repeat for 0000194948 particles. (took 0.024317 sec)
SO iteration 3: need to repeat for 0000194948 particles. (took 0.0274711 sec)
SO iteration 4: need to repeat for 0000194948 particles. (took 0.0260131 sec)
SO iteration 5: need to repeat for 0000194948 particles. (took 0.026253 sec)
SO iteration 6: need to repeat for 0000194948 particles. (took 0.026365 sec)
SO iteration 7: need to repeat for 0000194948 particles. (took 0.025681 sec)
SO iteration 8: need to repeat for 0000194948 particles. (took 0.025924 sec)
SO iteration 9: need to repeat for 0000194948 particles. (took 0.0260191 sec)
SO iteration 10: need to repeat for 0000194948 particles. (took 0.025486 sec)
SO iteration 11: need to repeat for 0000194948 particles. (took 0.0257411 sec)
SO iteration 12: need to repeat for 0000194948 particles. (took 0.0360589 sec)
SO iteration 13: need to repeat for 0000194948 particles. (took 0.0298488 sec)
SO iteration 14: need to repeat for 0000194948 particles. (took 0.0277898 sec)
SO iteration 15: need to repeat for 0000194666 particles. (took 0.040333 sec)
SO iteration 16: need to repeat for 0000003142 particles. (took 0.0285282 sec)
SO iteration 17: need to repeat for 0000000100 particles. (took 0.00416994 sec)
SO iteration 18: need to repeat for 0000000003 particles. (took 0.000885963 sec)
SO iteration 1: need to repeat for 0000194948 particles. (took 0.0264421 sec)
SO iteration 2: need to repeat for 0000194948 particles. (took 0.023284 sec)
SO iteration 3: need to repeat for 0000194948 particles. (took 0.023746 sec)
SO iteration 4: need to repeat for 0000194948 particles. (took 0.0234568 sec)
SO iteration 5: need to repeat for 0000194948 particles. (took 0.0234089 sec)
SO iteration 6: need to repeat for 0000194948 particles. (took 0.0234408 sec)
SO iteration 7: need to repeat for 0000194948 particles. (took 0.0233738 sec)
SO iteration 8: need to repeat for 0000194948 particles. (took 0.023592 sec)
SO iteration 9: need to repeat for 0000194948 particles. (took 0.0234792 sec)
SO iteration 10: need to repeat for 0000194948 particles. (took 0.0234869 sec)
SO iteration 11: need to repeat for 0000194948 particles. (took 0.023386 sec)
SO iteration 12: need to repeat for 0000194948 particles. (took 0.023289 sec)
SO iteration 13: need to repeat for 0000194948 particles. (took 0.0234151 sec)
SO iteration 14: need to repeat for 0000194948 particles. (took 0.0233331 sec)
SO iteration 15: need to repeat for 0000194893 particles. (took 0.0237451 sec)
SO iteration 16: need to repeat for 0000131591 particles. (took 0.023205 sec)
SO iteration 17: need to repeat for 0000001439 particles. (took 0.017633 sec)
SO iteration 18: need to repeat for 0000000077 particles. (took 0.00135708 sec)
SO iteration 19: need to repeat for 0000000003 particles. (took 0.000679016 sec)
SO iteration 1: need to repeat for 0000194948 particles. (took 0.0265219 sec)
SO iteration 2: need to repeat for 0000194948 particles. (took 0.0247862 sec)
SO iteration 3: need to repeat for 0000194948 particles. (took 0.037292 sec)
SO iteration 4: need to repeat for 0000194948 particles. (took 0.0227752 sec)
SO iteration 5: need to repeat for 0000194948 particles. (took 0.0400848 sec)
SO iteration 6: need to repeat for 0000194948 particles. (took 0.0210969 sec)
SO iteration 7: need to repeat for 0000194948 particles. (took 0.0202639 sec)
SO iteration 8: need to repeat for 0000194948 particles. (took 0.020282 sec)
SO iteration 9: need to repeat for 0000194948 particles. (took 0.020395 sec)
SO iteration 10: need to repeat for 0000194948 particles. (took 0.020129 sec)
SO iteration 11: need to repeat for 0000194948 particles. (took 0.0202301 sec)
SO iteration 12: need to repeat for 0000194948 particles. (took 0.0202789 sec)
SO iteration 13: need to repeat for 0000194948 particles. (took 0.020257 sec)
SO iteration 14: need to repeat for 0000194948 particles. (took 0.020242 sec)
SO iteration 15: need to repeat for 0000194946 particles. (took 0.0202968 sec)
SO iteration 16: need to repeat for 0000194939 particles. (took 0.0203381 sec)
SO iteration 17: need to repeat for 0000168056 particles. (took 0.0203621 sec)
SO iteration 18: need to repeat for 0000008701 particles. (took 0.018507 sec)
SO iteration 19: need to repeat for 0000000156 particles. (took 0.00334311 sec)
SO iteration 20: need to repeat for 0000000017 particles. (took 0.000603199 sec)
determining spherical overdensity masses took 2.89821 sec
finding spherical overdensity particles took 0.617135 sec
determining contamination of halos took 0.262021 sec
Global sort of Groups took 0.165728 sec
Global sort of SubGroups took 0.647642 sec
Global sort of IDs took 0.505723 sec
Writing block 0 (GLEN), n=890, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3560d
Writing block 1 (GOFF), n=890, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3560d
Writing block 2 (MTOT), n=890, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3560d
Writing block 3 (GPOS), n=890, ptype=0, dtype=1, ndim=3, bpb=4 bytes=10680d
Writing block 4 (MMEA), n=890, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3560d
Writing block 5 (RMEA), n=890, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3560d
Writing block 6 (MCRI), n=890, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3560d
Writing block 7 (RCRI), n=890, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3560d
Writing block 8 (MTOP), n=890, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3560d
Writing block 9 (RTOP), n=890, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3560d
Writing block 17 (NCON), n=890, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3560d
Writing block 18 (MCON), n=890, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3560d
Writing block 22 (NSUB), n=890, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3560d
Writing block 23 (FSUB), n=890, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3560d
Writing block 24 (SLEN), n=2809, ptype=1, dtype=0, ndim=1, bpb=4 bytes=11236d
Writing block 25 (SOFF), n=2809, ptype=1, dtype=0, ndim=1, bpb=4 bytes=11236d
Writing block 27 (MSUB), n=2809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 28 (SPOS), n=2809, ptype=1, dtype=1, ndim=3, bpb=4 bytes=33708d
Writing block 29 (SVEL), n=2809, ptype=1, dtype=1, ndim=3, bpb=4 bytes=33708d
Writing block 30 (SCM ), n=2809, ptype=1, dtype=1, ndim=3, bpb=4 bytes=33708d
Writing block 33 (VMAX), n=2809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 34 (RMAX), n=2809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 35 (RHMS), n=2809, ptype=1, dtype=1, ndim=6, bpb=4 bytes=67416d
Writing block 36 (MTRH), n=2809, ptype=1, dtype=1, ndim=6, bpb=4 bytes=67416d
Writing block 37 (MBID), n=2809, ptype=1, dtype=2, ndim=1, bpb=8 bytes=22472d
Writing block 38 (GRNR), n=2809, ptype=1, dtype=0, ndim=1, bpb=4 bytes=11236d
Writing block 39 (SUBN), n=2809, ptype=1, dtype=0, ndim=1, bpb=4 bytes=11236d
Writing block 40 (SMST), n=2809, ptype=1, dtype=1, ndim=6, bpb=4 bytes=67416d
Writing block 53 (PID ), n=523313, ptype=2, dtype=2, ndim=1, bpb=8 bytes=4186504d
Writing block 54 (SLEN), n=2809, ptype=1, dtype=0, ndim=6, bpb=4 bytes=67416d
Writing block 55 (STEN), n=2809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 56 (SKEN), n=2809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 57 (SUEN), n=2809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 58 (SUIT), n=2809, ptype=1, dtype=1, ndim=9, bpb=4 bytes=101124d
Writing block 59 (BHMA), n=2809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 60 (BHMD), n=2809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 61 (SVD ), n=2809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 62 (SVDH), n=2809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 63 (HMPR), n=2809, ptype=1, dtype=1, ndim=6, bpb=4 bytes=67416d
Writing block 64 (SSFR), n=2809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 65 (SSA ), n=2809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 66 (SSBZ), n=2809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 67 (SSIM), n=2809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 68 (SSPI), n=2809, ptype=4, dtype=1, ndim=3, bpb=4 bytes=33708d
Writing block 69 (GSPI), n=2809, ptype=1, dtype=1, ndim=3, bpb=4 bytes=33708d
Writing block 70 (FSPI), n=2809, ptype=5, dtype=1, ndim=3, bpb=4 bytes=33708d
Writing block 71 (SFM ), n=2809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 72 (SFMT), n=2809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 73 (SFME), n=2809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 74 (SFAE), n=2809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 75 (SFKE), n=2809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 76 (SFTE), n=2809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 77 (SMWP), n=2809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 78 (SMM ), n=2809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 79 (SMMS), n=2809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 80 (SFZ ), n=2809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 81 (SFZS), n=2809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 82 (SSIA), n=2809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 83 (SIAS), n=2809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 84 (SMET), n=2809, ptype=5, dtype=1, ndim=9, bpb=4 bytes=101124d
Writing block 85 (SMTS), n=2809, ptype=5, dtype=1, ndim=9, bpb=4 bytes=101124d
Writing block 86 (MF1 ), n=2809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 87 (MeF1), n=2809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 88 (MF  ), n=2809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 89 (MeF2), n=2809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 90 (MFA ), n=2809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 91 (MeFA), n=2809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 92 (NSPI), n=2809, ptype=6, dtype=1, ndim=3, bpb=4 bytes=33708d
Writing block 93 (NFM ), n=2809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 94 (NFMT), n=2809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 95 (NFME), n=2809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 96 (NFAE), n=2809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 97 (NFKE), n=2809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 98 (NFTE), n=2809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 99 (SMWP), n=2809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 100 (SMM ), n=2809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 101 (SMMS), n=2809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 102 (SSIA), n=2809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 103 (SIAS), n=2809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 104 (SMET), n=2809, ptype=6, dtype=1, ndim=9, bpb=4 bytes=101124d
Writing block 105 (SMTS), n=2809, ptype=6, dtype=1, ndim=9, bpb=4 bytes=101124d
Writing block 106 (MF1 ), n=2809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 107 (MeF1), n=2809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 108 (MF2 ), n=2809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 109 (MeF2), n=2809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 110 (MFA ), n=2809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 111 (MeFA), n=2809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 112 (SM  ), n=2809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 113 (SFKE), n=2809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 114 (SFAE), n=2809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 115 (SMWP), n=2809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 116 (SMM ), n=2809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 117 (SMMS), n=2809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 118 (SSIA), n=2809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 119 (SIAS), n=2809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 120 (SMET), n=2809, ptype=4, dtype=1, ndim=9, bpb=4 bytes=101124d
Writing block 121 (SMTS), n=2809, ptype=4, dtype=1, ndim=9, bpb=4 bytes=101124d
Writing block 122 (MF1 ), n=2809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 123 (MeF1), n=2809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 124 (MF2 ), n=2809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 125 (MeF2), n=2809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 126 (MFA ), n=2809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 127 (MeFA), n=2809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11236d
Writing block 128 (MMe5), n=890, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3560d
Writing block 129 (RMe5), n=890, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3560d
Writing block 130 (MCr5), n=890, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3560d
Writing block 131 (RCr5), n=890, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3560d
Writing block 132 (MMe2), n=890, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3560d
Writing block 133 (RMe2), n=890, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3560d
Writing block 134 (MCr2), n=890, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3560d
Writing block 135 (RCr2), n=890, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3560d
Writing block 136 (MAPT), n=2809, ptype=7, dtype=1, ndim=60, bpb=4 bytes=674160d
Writing block 137 (SAPT), n=2809, ptype=8, dtype=1, ndim=10, bpb=4 bytes=112360d
Writing block 138 (VAPT), n=2809, ptype=9, dtype=1, ndim=10, bpb=4 bytes=112360d
Writing block 139 (BEGY), n=523313, ptype=2, dtype=1, ndim=1, bpb=4 bytes=2093252d
Subgroup catalogues saved. took = 6.58076 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 7.400889e-01
 eagle_ph_key_ort: type= 2 timed by volker 6.369805e-02
 eagle_ph_key_ort: type= 3 timed by volker 1.064515e-02
 eagle_ph_key_ort: type= 4 timed by volker 1.064515e-02
 eagle_ph_key_ort: type= 5 timed by volker 1.064515e-02
 eagle_ph_key_ort: timing parallel sort = 8.609159e-01
 eagle_fetch_elements: we are using 1643122707 bytes of memory, FreeBytes= 2053903384

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 1991.25 Mbyte (on task=0), Smallest = 1321.09 Mbyte, Average = 1342.51 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0615    1203.0755  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.4280    1227.5034  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.7133    1268.2167  fof_fof()/fof.c/337
   0 2975 0             Group      1.1476    1269.3643  fof_fof()/fof.c/380
   0 2976 0          SubGroup    697.3729    1966.7372  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5079    1991.2451  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1994101 number of bytes = 638112320

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3557.94 Mbyte (on task=0), Smallest = 2887.79 Mbyte, Average = 2909.36 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0615    1203.0755  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.4280    1227.5034  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.7133    1268.2167  fof_fof()/fof.c/337
   0 2975 0             Group      1.1476    1269.3643  fof_fof()/fof.c/380
   0 2976 0          SubGroup    697.3729    1966.7372  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5079    1991.2451  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      7.6069    1998.8520  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      7.6069    2006.4589  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      7.6069    2014.0658  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    608.5513    2622.6171  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    608.5513    3231.1684  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    326.7725    3557.9409  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.711548e+00
 eagle_fetch_elements: we are using 1643122707 bytes of memory, FreeBytes= 2053903384
 eagle_fetch_elements: max_bytes= 504, max_elements= 1610904 number of bytes = 811895616
 eagle_ph_key_ort: timing parallel SphP exchange = 7.435083e-03
 eagle_fetch_elements: we are using 1643122707 bytes of memory, FreeBytes= 2053903384
 eagle_fetch_elements: max_bytes= 384, max_elements= 2106567 number of bytes = 808921728
 eagle_ph_key_ort: timing parallel MetP exchange = 1.871824e-03
 eagle_fetch_elements: we are using 1643122707 bytes of memory, FreeBytes= 2053903384
 eagle_fetch_elements: max_bytes= 256, max_elements= 3135730 number of bytes = 802746880
 eagle_ph_key_ort: timing parallel BHP exchange = 1.458168e-03
Sorting particle-data by peano-hilbert key took = 3.96274 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1643122707 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1994101 number of bytes= 638112320
 eagle_ph_restore: timing parallel P exchange = 2.499213e+00
 eagle_send_elements: we are using 1643122707 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1610904 number of bytes= 811895616
 eagle_ph_restore: timing parallel SphP exchange = 3.485918e-03
 eagle_send_elements: we are using 1643122707 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2106567 number of bytes= 808921728
 eagle_ph_restore: timing parallel MetP exchange = 7.178783e-04
 eagle_send_elements: we are using 1643122707 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 3135730 number of bytes= 802746880
 eagle_ph_restore: timing parallel BHP exchange = 6.718636e-04
Restoring original order after ph key sorting took = 2.52072 sec

finished writing particle file...

Finished with SUBFIND.  (total time=1953.69 sec)

Finished computing FoF groups.  (presently allocated=1203.08 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=182057
After=202761
NTopleaves= 177416  NTopnodes=202761 (space for 244687)
gravity work-load balance=1.00067   memory-balance=1.00067   SPH work-load balance=0
iter=0 exchange of 0273096190 particles (ret=0)
domain decomposition done. (took 3.9339 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.91922 MByte in top-level domain structure
Tree construction.
task 16: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


task 16: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
task 128: endrun called with an error level of 124


task 128: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
task 160: endrun called with an error level of 124


task 160: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
task 176: endrun called with an error level of 124


task 176: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
task 192: endrun called with an error level of 124


task 192: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
Finished FOF, total time doing fof/subfind = 1984.1 s
task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.93 Mb (on task=112), Smallest =   62646.67 Mb (on task=0), Average =   62686.88 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1885.39 Mb (on task=0), Smallest =    1798.13 Mb (on task=112), Average =    1845.19 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16339.36 Mb (on task=112), Average =   16351.65 Mb
AllocMem:	 Largest =    1885.39 Mb (on task=0), Smallest =    1798.13 Mb (on task=112), Average =    1845.19 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_011_z001p017/snap_011_z001p017.0.hdf5' on task=0 (contains 17204146 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  17104615  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     13161  (tot=     0000303834) masstab=0
Type 3 (bulge):    86370  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.496923

Setting next time for line of sight file to Time_next= 0.498332

Setting next time for snipshot file to Time_next= 0.503579

Setting next time for fof output to Time_next= 0.503579
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.1308 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
Before=183257
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=183257
After=199137
NTopleaves= 174245  NTopnodes=199137 (space for 244687)
gravity work-load balance=1.0006   memory-balance=1.0006   SPH work-load balance=0
iter=0 exchange of 0273131656 particles (ret=0)
domain decomposition done. (took 10.0089 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.08511 MByte in top-level domain structure

Allocated 503.33 MByte for BH-tree, and 0.664692 Mbyte for top-leaves.  (presently allocted 1706.88 MB)

Begin Ngb-tree construction.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1753.06 Mbyte (on task=0), Smallest = 1752.97 Mbyte, Average = 1753.05 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.8754    1202.8894  domain_allocate()/domain.c/570
   0 2973 0   DomainNodeIndex      0.6647    1203.5541  force_treeallocate()/forcetree.c/4800
   0 2974 0        Nodes_base    258.5255    1462.0796  force_treeallocate()/forcetree.c/4803
   0 2975 0     Extnodes_base    215.4379    1677.5176  force_treeallocate()/forcetree.c/4811
   0 2976 0          Nextnode     15.0629    1692.5804  force_treeallocate()/forcetree.c/4820
   0 2977 0            Father     14.3032    1706.8836  force_treeallocate()/forcetree.c/4827
   0 2978 0           Ngblist      4.0891    1710.9727  density()/density.c/690
   0 2979 0              Left      8.1781    1719.1508  density()/density.c/692
   0 2980 0             Right      8.1781    1727.3290  density()/density.c/693
   0 2981 0    DataIndexTable      7.0175    1734.3465  density()/density.c/738
   0 2982 0      DataNodeList     18.7134    1753.0600  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.957.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_1.053.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.88 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=182809
After=202169
NTopleaves= 176898  NTopnodes=202169 (space for 244687)
gravity work-load balance=1.00067   memory-balance=1.00067   SPH work-load balance=0
iter=0 exchange of 0273404079 particles (ret=0)
domain decomposition done. (took 4.39756 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.94632 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1203.04 MB)
Tree construction.

Start linking particles (presently allocated=1756.63 MB)
links on local processor done (took 5.52102 sec).
Marked=0045428588 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1858.24 MB) 
have done 0000977432 cross links (processed 0045428588, took 1.87471 sec)
have done 0000410916 cross links (processed 0032328740, took 1.73887 sec)
have done 0000278370 cross links (processed 0026296396, took 1.59757 sec)
have done 0000179855 cross links (processed 0016379567, took 1.17207 sec)
have done 0000108650 cross links (processed 0009673105, took 0.852238 sec)
have done 0000063424 cross links (processed 0006036325, took 0.950955 sec)
have done 0000038096 cross links (processed 0002693355, took 0.508787 sec)
have done 0000021773 cross links (processed 0001026088, took 0.361255 sec)
have done 0000012942 cross links (processed 0000559308, took 0.139995 sec)
have done 0000010718 cross links (processed 0000817095, took 0.34354 sec)
have done 0000013336 cross links (processed 0001721682, took 0.401053 sec)
have done 0000017449 cross links (processed 0002658031, took 0.956779 sec)
have done 0000016201 cross links (processed 0001752395, took 0.884009 sec)
have done 0000009629 cross links (processed 0000508596, took 0.376322 sec)
have done 0000003985 cross links (processed 0000171881, took 0.21951 sec)
have done 0000001412 cross links (processed 0000028266, took 0.050864 sec)
have done 0000000504 cross links (processed 0000006918, took 0.045012 sec)
have done 0000000192 cross links (processed 0000002385, took 0.0446432 sec)
have done 0000000074 cross links (processed 0000001002, took 0.0445778 sec)
have done 0000000029 cross links (processed 0000000465, took 0.0444221 sec)
have done 0000000005 cross links (processed 0000000123, took 0.044416 sec)
have done 0000000000 cross links (processed 0000000009, took 0.044462 sec)
Local groups found.

group finding took = 18.3215 sec
Start finding nearest dm-particle (presently allocated=1756.63 MB)
still finding nearest... (presently allocated=1846.09 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.109622 sec
compiling local group data and catalogue took = 0.670247 sec

Total number of groups with at least 32 particles: 223637
Largest group has 6881927 particles.
Total number of particles in groups: 0117716889

group properties are now allocated.. (presently allocated=1269.61 MB)
computation of group properties took = 0.0633199 sec
start global sorting of group catalogues number 11
LargestGroup = 5417.241018; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0520129 sec
Group catalogues globally sorted. took = 0.748133 sec
starting saving of group catalogue number 11
data//groups_011_z001p017
Group catalogues number 11 saved. took = 2.3516 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.703899 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.281942 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.722959 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0185652126 particles. (took 20.3869 sec)
ngb iteration 2: need to repeat for 0145596111 particles. (took 9.58774 sec)
ngb iteration 3: need to repeat for 0126120765 particles. (took 7.16245 sec)
ngb iteration 4: need to repeat for 0114354839 particles. (took 5.75035 sec)
ngb iteration 5: need to repeat for 0102493410 particles. (took 5.00033 sec)
ngb iteration 6: need to repeat for 0086389653 particles. (took 4.38378 sec)
ngb iteration 7: need to repeat for 0066403849 particles. (took 3.73268 sec)
ngb iteration 8: need to repeat for 0046477370 particles. (took 3.07241 sec)
ngb iteration 9: need to repeat for 0030122020 particles. (took 2.28688 sec)
ngb iteration 10: need to repeat for 0018463969 particles. (took 1.60892 sec)
ngb iteration 11: need to repeat for 0010910690 particles. (took 1.04784 sec)
ngb iteration 12: need to repeat for 0006303920 particles. (took 0.645191 sec)
ngb iteration 13: need to repeat for 0003595653 particles. (took 0.396404 sec)
ngb iteration 14: need to repeat for 0001954355 particles. (took 0.262972 sec)
ngb iteration 15: need to repeat for 0000930309 particles. (took 0.170129 sec)
ngb iteration 16: need to repeat for 0000448907 particles. (took 0.107907 sec)
ngb iteration 17: need to repeat for 0000221324 particles. (took 0.0762448 sec)
ngb iteration 18: need to repeat for 0000110555 particles. (took 0.0595899 sec)
ngb iteration 19: need to repeat for 0000054969 particles. (took 0.051573 sec)
ngb iteration 20: need to repeat for 0000026766 particles. (took 0.047055 sec)
ngb iteration 21: need to repeat for 0000012634 particles. (took 0.043993 sec)
ngb iteration 22: need to repeat for 0000005752 particles. (took 0.042455 sec)
ngb iteration 23: need to repeat for 0000002421 particles. (took 0.041369 sec)
ngb iteration 24: need to repeat for 0000000985 particles. (took 0.0408041 sec)
ngb iteration 25: need to repeat for 0000000319 particles. (took 0.0405118 sec)
ngb iteration 26: need to repeat for 0000000092 particles. (took 0.0407498 sec)
ngb iteration 27: need to repeat for 0000000025 particles. (took 0.0402448 sec)
ngb iteration 28: need to repeat for 0000000006 particles. (took 0.0402529 sec)
final operations ... 
density and smoothing length for species 1 took 66.5337 sec
Tree construction.
tree build took 0.700789 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.283011 sec
Tree construction.
tree build took 0.705542 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.282017 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.168227 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.96902 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.697052 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.188644 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.94843 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.166256 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.94659 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.953164 sec
saving densities took 2.3068 sec

Number of FOF halos treated with collective SubFind code = 3
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 223634 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 23800 - 57568389 

subfind_exchange()() took 1.72253 sec

collectively doing halo 1, num=11
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2044.24 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2103.79 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 2103.8 Mbyte (on task=0), Smallest = 1355.52 Mbyte, Average = 1379.12 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0258    1203.0398  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5340    1227.5738  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8901    1268.4639  fof_fof()/fof.c/337
   0 2975 0             Group      1.1486    1269.6125  fof_fof()/fof.c/380
   0 2976 0          SubGroup    774.6285    2044.2410  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    2056.5003  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    2085.1067  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    2086.0519  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    2086.9853  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    2087.9187  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    2088.8521  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    2089.7894  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    2090.7267  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    2103.7944  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=139665
After=170233
NTopleaves= 148954  NTopnodes=170233 (space for 244687)
gravity work-load balance=1.00058   memory-balance=1.00058   SPH work-load balance=0
iter=0 exchange of 0006855948 particles (ret=0)
domain decomposition done. (took 0.947787 sec)
Freed 3.40823 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 2551.75 Mbyte (on task=0), Smallest = 1803.47 Mbyte, Average = 1827.07 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0258    1203.0398  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5340    1227.5738  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8901    1268.4639  fof_fof()/fof.c/337
   0 2975 0             Group      1.1486    1269.6125  fof_fof()/fof.c/380
   0 2976 0          SubGroup    774.6285    2044.2410  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.4420    2052.8081  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5682    2053.3763  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    255.8793    2309.2555  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base    213.2327    2522.4883  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9526    2537.4409  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    2551.7441  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.3981 sec  (presently allocated=2551.74 MB)
force_treebuild() took 1.97235 sec (presently allocated=2551.74 MB)
Start find_linkngb (26877 particles on task=0)
find linkngb iteration 1: need to repeat for 0006765006 particles. (took 0.513085 sec)
find linkngb iteration 2: need to repeat for 0006417067 particles. (took 0.347394 sec)
find linkngb iteration 3: need to repeat for 0006124438 particles. (took 0.237048 sec)
find linkngb iteration 4: need to repeat for 0005412575 particles. (took 0.268972 sec)
find linkngb iteration 5: need to repeat for 0004511184 particles. (took 0.230033 sec)
find linkngb iteration 6: need to repeat for 0003270603 particles. (took 0.19125 sec)
find linkngb iteration 7: need to repeat for 0002056754 particles. (took 0.138783 sec)
find linkngb iteration 8: need to repeat for 0001167936 particles. (took 0.090965 sec)
find linkngb iteration 9: need to repeat for 0000625746 particles. (took 0.060251 sec)
find linkngb iteration 10: need to repeat for 0000323474 particles. (took 0.037338 sec)
find linkngb iteration 11: need to repeat for 0000163725 particles. (took 0.023864 sec)
find linkngb iteration 12: need to repeat for 0000035013 particles. (took 0.016402 sec)
find linkngb iteration 13: need to repeat for 0000000633 particles. (took 0.00899696 sec)
find linkngb iteration 14: need to repeat for 0000000132 particles. (took 0.000737906 sec)
find linkngb iteration 15: need to repeat for 0000000029 particles. (took 0.000463963 sec)
find linkngb iteration 16: need to repeat for 0000000005 particles. (took 0.000416994 sec)
find_linkngb() took 2.16735 sec
Start finding nearest two (26877 particles on task=0)
find_nearesttwo() took 0.426988 sec (presently allocated=2553.79 MB)
parallel sort of densities done. took 0.0573008 sec
building distributed linked list. (presently allocated 2553.53 MB)
identification of primary candidates took 179.568 sec
adding background as candidate took 0.158139 sec
establishing of rank order took 55.142 sec  (p=6881927, grouplen=6881927) presently allocated 2553.53 MB

total number of subhalo candidates=29723

number of subhalo candidates that can be done independently=26231.
(Largest size is 3580, finding them took 0.00830007 sec)
particles are marked (took 36.309)
independent subhalos are assembled on individual CPUs for unbinding (0.170763 sec, (presently allocated=2553.53 MB)
unbinding of independent ones took 0.0701549 sec
particles have returned to their original processor (0.232792 sec, presently allocated 2553.53 MB)

number of subhalo candidates that can be done independently=3157.
(Largest size is 15395, finding them took 1.05883 sec)
particles are marked (took 24.5084)
independent subhalos are assembled on individual CPUs for unbinding (0.168585 sec, (presently allocated=2553.53 MB)
unbinding of independent ones took 0.407509 sec
particles have returned to their original processor (0.231596 sec, presently allocated 2553.53 MB)

number of subhalo candidates that can be done independently=294.
(Largest size is 131864, finding them took 1.05316 sec)
particles are marked (took 26.874)
independent subhalos are assembled on individual CPUs for unbinding (0.182693 sec, (presently allocated=2553.53 MB)
unbinding of independent ones took 3.84953 sec
particles have returned to their original processor (0.253717 sec, presently allocated 2553.53 MB)

number of subhalo candidates that can be done independently=37.
(Largest size is 104755, finding them took 0.897631 sec)
particles are marked (took 18.5217)
independent subhalos are assembled on individual CPUs for unbinding (0.164292 sec, (presently allocated=2553.53 MB)
unbinding of independent ones took 2.85523 sec
particles have returned to their original processor (0.233271 sec, presently allocated 2553.53 MB)

number of subhalo candidates that can be done independently=3.
(Largest size is 157030, finding them took 0.56981 sec)
particles are marked (took 17.3208)
independent subhalos are assembled on individual CPUs for unbinding (0.177794 sec, (presently allocated=2553.53 MB)
unbinding of independent ones took 7.76621 sec
particles have returned to their original processor (0.239613 sec, presently allocated 2553.53 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 6881927, finding them took 0.570011 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=6881927 ... maximum alloacted 2553.63 MB
took 120.888 sec

the collective unbinding of remaining halos took 133.991 sec

found 2573 bound substructures in FoF group of length 6881927
determination of parent subhalo took 0.0423291 sec (presently allocated 2553.63 MB)
determining substructure properties took 147.937 sec (presently allocated 2553.63 MB)

collectively doing halo 2, num=11
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2044.24 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2103.79 MB)
Before=141929
After=174177
NTopleaves= 152405  NTopnodes=174177 (space for 244687)
gravity work-load balance=1.0005   memory-balance=1.0005   SPH work-load balance=0
iter=0 exchange of 0006407704 particles (ret=0)
domain decomposition done. (took 0.979905 sec)
Freed 3.22769 MByte in top-level domain structure
coldomain_Decomposition() took 1.42043 sec  (presently allocated=2552.63 MB)
force_treebuild() took 1.96474 sec (presently allocated=2552.63 MB)
Start find_linkngb (25139 particles on task=0)
find linkngb iteration 1: need to repeat for 0006345444 particles. (took 0.494224 sec)
find linkngb iteration 2: need to repeat for 0006036501 particles. (took 0.330966 sec)
find linkngb iteration 3: need to repeat for 0005762531 particles. (took 0.224549 sec)
find linkngb iteration 4: need to repeat for 0005098956 particles. (took 0.256011 sec)
find linkngb iteration 5: need to repeat for 0004247408 particles. (took 0.21881 sec)
find linkngb iteration 6: need to repeat for 0003078619 particles. (took 0.17847 sec)
find linkngb iteration 7: need to repeat for 0001936770 particles. (took 0.13043 sec)
find linkngb iteration 8: need to repeat for 0001099184 particles. (took 0.086802 sec)
find linkngb iteration 9: need to repeat for 0000589200 particles. (took 0.0548041 sec)
find linkngb iteration 10: need to repeat for 0000304673 particles. (took 0.0344489 sec)
find linkngb iteration 11: need to repeat for 0000155173 particles. (took 0.022608 sec)
find linkngb iteration 12: need to repeat for 0000033103 particles. (took 0.015897 sec)
find linkngb iteration 13: need to repeat for 0000000545 particles. (took 0.00868678 sec)
find linkngb iteration 14: need to repeat for 0000000126 particles. (took 0.000658989 sec)
find linkngb iteration 15: need to repeat for 0000000031 particles. (took 0.000463009 sec)
find linkngb iteration 16: need to repeat for 0000000004 particles. (took 0.000389099 sec)
find linkngb iteration 17: need to repeat for 0000000001 particles. (took 0.000372171 sec)
find_linkngb() took 2.05956 sec
Start finding nearest two (25139 particles on task=0)
find_nearesttwo() took 0.415395 sec (presently allocated=2554.55 MB)
parallel sort of densities done. took 0.055881 sec
building distributed linked list. (presently allocated 2554.3 MB)
identification of primary candidates took 164.974 sec
adding background as candidate took 0.156222 sec
establishing of rank order took 51.9199 sec  (p=6433881, grouplen=6433881) presently allocated 2554.3 MB

total number of subhalo candidates=29191

number of subhalo candidates that can be done independently=25606.
(Largest size is 1451, finding them took 0.00802088 sec)
particles are marked (took 35.2573)
independent subhalos are assembled on individual CPUs for unbinding (0.169843 sec, (presently allocated=2554.3 MB)
unbinding of independent ones took 0.030587 sec
particles have returned to their original processor (0.230758 sec, presently allocated 2554.3 MB)

number of subhalo candidates that can be done independently=3208.
(Largest size is 9353, finding them took 1.04951 sec)
particles are marked (took 23.6448)
independent subhalos are assembled on individual CPUs for unbinding (0.168684 sec, (presently allocated=2554.3 MB)
unbinding of independent ones took 0.323919 sec
particles have returned to their original processor (0.229864 sec, presently allocated 2554.3 MB)

number of subhalo candidates that can be done independently=330.
(Largest size is 61535, finding them took 1.05526 sec)
particles are marked (took 20.4222)
independent subhalos are assembled on individual CPUs for unbinding (0.162624 sec, (presently allocated=2554.3 MB)
unbinding of independent ones took 1.90272 sec
particles have returned to their original processor (0.225224 sec, presently allocated 2554.3 MB)

number of subhalo candidates that can be done independently=40.
(Largest size is 58934, finding them took 0.80441 sec)
particles are marked (took 16.9437)
independent subhalos are assembled on individual CPUs for unbinding (0.163929 sec, (presently allocated=2554.3 MB)
unbinding of independent ones took 1.32901 sec
particles have returned to their original processor (0.232537 sec, presently allocated 2554.3 MB)

number of subhalo candidates that can be done independently=5.
(Largest size is 278480, finding them took 0.566927 sec)
particles are marked (took 14.7327)
independent subhalos are assembled on individual CPUs for unbinding (0.158603 sec, (presently allocated=2554.3 MB)
unbinding of independent ones took 1.18594 sec
particles have returned to their original processor (0.222835 sec, presently allocated 2554.3 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 278480, finding them took 0.566021 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=278480 ... maximum alloacted 2554.39 MB
took 5.81296 sec
collective unbinding of nr=1 (2) of length=6433881 ... maximum alloacted 2554.39 MB
took 109.335 sec

the collective unbinding of remaining halos took 127.956 sec

found 2113 bound substructures in FoF group of length 6433881
determination of parent subhalo took 0.042443 sec (presently allocated 2554.39 MB)
determining substructure properties took 132.199 sec (presently allocated 2554.39 MB)

collectively doing halo 3, num=11
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2044.24 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2103.79 MB)
Before=149177
After=171017
NTopleaves= 149640  NTopnodes=171017 (space for 244687)
gravity work-load balance=1.00045   memory-balance=1.00045   SPH work-load balance=0
iter=0 exchange of 0002795101 particles (ret=0)
domain decomposition done. (took 0.911307 sec)
Freed 3.37234 MByte in top-level domain structure
coldomain_Decomposition() took 1.35503 sec  (presently allocated=2551.92 MB)
force_treebuild() took 1.96627 sec (presently allocated=2551.92 MB)
Start find_linkngb (10918 particles on task=0)
find linkngb iteration 1: need to repeat for 0002800731 particles. (took 0.194006 sec)
find linkngb iteration 2: need to repeat for 0002752012 particles. (took 0.125461 sec)
find linkngb iteration 3: need to repeat for 0002637581 particles. (took 0.0901711 sec)
find linkngb iteration 4: need to repeat for 0002367920 particles. (took 0.100472 sec)
find linkngb iteration 5: need to repeat for 0001987612 particles. (took 0.088599 sec)
find linkngb iteration 6: need to repeat for 0001447234 particles. (took 0.0759449 sec)
find linkngb iteration 7: need to repeat for 0000911921 particles. (took 0.057755 sec)
find linkngb iteration 8: need to repeat for 0000519333 particles. (took 0.040884 sec)
find linkngb iteration 9: need to repeat for 0000279123 particles. (took 0.027297 sec)
find linkngb iteration 10: need to repeat for 0000144637 particles. (took 0.019001 sec)
find linkngb iteration 11: need to repeat for 0000073582 particles. (took 0.027405 sec)
find linkngb iteration 12: need to repeat for 0000016075 particles. (took 0.0153289 sec)
find linkngb iteration 13: need to repeat for 0000000412 particles. (took 0.0105329 sec)
find linkngb iteration 14: need to repeat for 0000000077 particles. (took 0.00118184 sec)
find linkngb iteration 15: need to repeat for 0000000011 particles. (took 0.000447989 sec)
find linkngb iteration 16: need to repeat for 0000000001 particles. (took 0.000344992 sec)
find_linkngb() took 0.875626 sec
Start finding nearest two (10918 particles on task=0)
find_nearesttwo() took 0.181119 sec (presently allocated=2552.75 MB)
parallel sort of densities done. took 0.058331 sec
building distributed linked list. (presently allocated 2552.64 MB)
identification of primary candidates took 80.7833 sec
adding background as candidate took 0.157225 sec
establishing of rank order took 23.9031 sec  (p=2805532, grouplen=2805532) presently allocated 2552.64 MB

total number of subhalo candidates=10558

number of subhalo candidates that can be done independently=9497.
(Largest size is 3246, finding them took 0.00335312 sec)
particles are marked (took 13.6191)
independent subhalos are assembled on individual CPUs for unbinding (0.156107 sec, (presently allocated=2552.64 MB)
unbinding of independent ones took 0.0666559 sec
particles have returned to their original processor (0.218528 sec, presently allocated 2552.64 MB)

number of subhalo candidates that can be done independently=957.
(Largest size is 23323, finding them took 1.05035 sec)
particles are marked (took 9.23649)
independent subhalos are assembled on individual CPUs for unbinding (0.161172 sec, (presently allocated=2552.64 MB)
unbinding of independent ones took 0.64829 sec
particles have returned to their original processor (0.229099 sec, presently allocated 2552.64 MB)

number of subhalo candidates that can be done independently=92.
(Largest size is 31650, finding them took 1.09712 sec)
particles are marked (took 8.5897)
independent subhalos are assembled on individual CPUs for unbinding (0.16381 sec, (presently allocated=2552.64 MB)
unbinding of independent ones took 1.7789 sec
particles have returned to their original processor (0.233269 sec, presently allocated 2552.64 MB)

number of subhalo candidates that can be done independently=9.
(Largest size is 219532, finding them took 0.566696 sec)
particles are marked (took 7.83674)
independent subhalos are assembled on individual CPUs for unbinding (0.160239 sec, (presently allocated=2552.64 MB)
unbinding of independent ones took 2.19705 sec
particles have returned to their original processor (0.232071 sec, presently allocated 2552.64 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 432491, finding them took 0.566199 sec)
too few, I do the rest of 3 collectively

collective unbinding of nr=0 (3) of length=219532 ... maximum alloacted 2552.69 MB
took 6.69507 sec
collective unbinding of nr=1 (3) of length=432491 ... maximum alloacted 2552.69 MB
took 14.7258 sec
collective unbinding of nr=2 (3) of length=2805532 ... maximum alloacted 2552.69 MB
took 53.0187 sec

the collective unbinding of remaining halos took 79.0755 sec

found 1296 bound substructures in FoF group of length 2805532
determination of parent subhalo took 0.0411 sec (presently allocated 2552.69 MB)
determining substructure properties took 71.9797 sec (presently allocated 2552.69 MB)
processing of collective halos took 1609.43 sec
sort of local particles()() took 0.586734 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 381.687 sec

Task 218: testing particles ...
Task 116: testing particles ...
Task 237: testing particles ...
unsorting of local particles()() took 0.481404 sec
Task 0: testing particles ...
Task 229: testing particles ...
Task 232: testing particles ...
Task 240: testing particles ...
Task 221: testing particles ...
Task 190: testing particles ...
Task 192: testing particles ...
Task 1: testing particles ...
Task 2: testing particles ...
Task 185: testing particles ...
Task 247: testing particles ...
Task 136: testing particles ...
Task 153: testing particles ...
Task 207: testing particles ...
Task 208: testing particles ...
Task 250: testing particles ...
Task 248: testing particles ...
Task 230: testing particles ...
Task 177: testing particles ...
Task 204: testing particles ...
Task 203: testing particles ...
Task 243: testing particles ...
Task 91: testing particles ...
Task 133: testing particles ...
Task 179: testing particles ...
Task 251: testing particles ...
Task 213: testing particles ...
Task 189: testing particles ...
Task 241: testing particles ...
Task 233: testing particles ...
Task 171: testing particles ...
Task 168: testing particles ...
Task 143: testing particles ...
Task 162: testing particles ...
Task 176: testing particles ...
Task 254: testing particles ...
Task 125: testing particles ...
Task 215: testing particles ...
Task 172: testing particles ...
Task 223: testing particles ...
Task 107: testing particles ...
Task 242: testing particles ...
Task 239: testing particles ...
Task 159: testing particles ...
Task 148: testing particles ...
Task 165: testing particles ...
Task 219: testing particles ...
Task 144: testing particles ...
Task 161: testing particles ...
Task 103: testing particles ...
Task 199: testing particles ...
Task 193: testing particles ...
Task 183: testing particles ...
Task 234: testing particles ...
Task 195: testing particles ...
Task 202: testing particles ...
Task 137: testing particles ...
Task 236: testing particles ...
Task 224: testing particles ...
Task 98: testing particles ...
Task 65: testing particles ...
Task 180: testing particles ...
Task 122: testing particles ...
Task 86: testing particles ...
Task 105: testing particles ...
Task 244: testing particles ...
Task 121: testing particles ...
Task 115: testing particles ...
Task 216: testing particles ...
Task 157: testing particles ...
Task 139: testing particles ...
Task 198: testing particles ...
Task 220: testing particles ...
Task 79: testing particles ...
Task 226: testing particles ...
Task 117: testing particles ...
Task 186: testing particles ...
Task 231: testing particles ...
Task 110: testing particles ...
Task 200: testing particles ...
Task 147: testing particles ...
Task 169: testing particles ...
Task 164: testing particles ...
Task 182: testing particles ...
Task 174: testing particles ...
Task 124: testing particles ...
Task 217: testing particles ...
Task 255: testing particles ...
Task 74: testing particles ...
Task 96: testing particles ...
Task 212: testing particles ...
Task 131: testing particles ...
Task 149: testing particles ...
Task 114: testing particles ...
Task 132: testing particles ...
Task 197: testing particles ...
Task 245: testing particles ...
Task 109: testing particles ...
Task 88: testing particles ...
Task 141: testing particles ...
Task 214: testing particles ...
Task 61: testing particles ...
Task 63: testing particles ...
Task 211: testing particles ...
Task 191: testing particles ...
Task 238: testing particles ...
Task 163: testing particles ...
Task 173: testing particles ...
Task 160: testing particles ...
Task 113: testing particles ...
Task 187: testing particles ...
Task 99: testing particles ...
Task 84: testing particles ...
Task 188: testing particles ...
Task 130: testing particles ...
Task 201: testing particles ...
Task 184: testing particles ...
Task 106: testing particles ...
Task 129: testing particles ...
Task 206: testing particles ...
Task 93: testing particles ...
Task 158: testing particles ...
Task 228: testing particles ...
Task 209: testing particles ...
Task 152: testing particles ...
Task 127: testing particles ...
Task 167: testing particles ...
Task 252: testing particles ...
Task 77: testing particles ...
Task 111: testing particles ...
Task 55: testing particles ...
Task 249: testing particles ...
Task 112: testing particles ...
Task 134: testing particles ...
Task 71: testing particles ...
Task 90: testing particles ...
Task 104: testing particles ...
Task 178: testing particles ...
Task 56: testing particles ...
Task 235: testing particles ...
Task 87: testing particles ...
Task 138: testing particles ...
Task 222: testing particles ...
Task 83: testing particles ...
Task 227: testing particles ...
Task 154: testing particles ...
Task 67: testing particles ...
Task 135: testing particles ...
Task 126: testing particles ...
Task 46: testing particles ...
Task 145: testing particles ...
Task 151: testing particles ...
Task 146: testing particles ...
Task 94: testing particles ...
Task 102: testing particles ...
Task 156: testing particles ...
Task 89: testing particles ...
Task 108: testing particles ...
Task 181: testing particles ...
Task 166: testing particles ...
Task 253: testing particles ...
Task 142: testing particles ...
Task 225: testing particles ...
Task 58: testing particles ...
Task 75: testing particles ...
Task 68: testing particles ...
Task 120: testing particles ...
Task 210: testing particles ...
Task 70: testing particles ...
Task 194: testing particles ...
Task 205: testing particles ...
Task 62: testing particles ...
Task 118: testing particles ...
Task 60: testing particles ...
Task 100: testing particles ...
Task 170: testing particles ...
Task 246: testing particles ...
Task 78: testing particles ...
Task 101: testing particles ...
Task 123: testing particles ...
Task 155: testing particles ...
Task 92: testing particles ...
Task 175: testing particles ...
Task 95: testing particles ...
Task 97: testing particles ...
Task 150: testing particles ...
Task 196: testing particles ...
Task 128: testing particles ...
Task 80: testing particles ...
Task 49: testing particles ...
Task 72: testing particles ...
Task 53: testing particles ...
Task 81: testing particles ...
Task 57: testing particles ...
Task 64: testing particles ...
Task 66: testing particles ...
Task 54: testing particles ...
Task 140: testing particles ...
Task 85: testing particles ...
Task 119: testing particles ...
Task 69: testing particles ...
Task 73: testing particles ...
Task 34: testing particles ...
Task 82: testing particles ...
Task 76: testing particles ...
Task 41: testing particles ...
Task 45: testing particles ...
Task 47: testing particles ...
Task 52: testing particles ...
Task 42: testing particles ...
Task 28: testing particles ...
Task 38: testing particles ...
Task 39: testing particles ...
Task 44: testing particles ...
Task 43: testing particles ...
Task 51: testing particles ...
Task 59: testing particles ...
Task 35: testing particles ...
Task 50: testing particles ...
Task 31: testing particles ...
Task 48: testing particles ...
Task 30: testing particles ...
Task 37: testing particles ...
Task 29: testing particles ...
Task 23: testing particles ...
Task 36: testing particles ...
Task 32: testing particles ...
Task 40: testing particles ...
Task 26: testing particles ...
Task 27: testing particles ...
Task 33: testing particles ...
Task 25: testing particles ...
Task 22: testing particles ...
Task 24: testing particles ...
Task 21: testing particles ...
Task 19: testing particles ...
Task 18: testing particles ...
Task 20: testing particles ...
Task 15: testing particles ...
Task 17: testing particles ...
Task 14: testing particles ...
Task 13: testing particles ...
Task 16: testing particles ...
Task 12: testing particles ...
Task 11: testing particles ...
Task 7: testing particles ...
Task 10: testing particles ...
Task 6: testing particles ...
Task 5: testing particles ...
Task 9: testing particles ...
Task 8: testing particles ...
Task 4: testing particles ...
Task 3: testing particles ...
subfind_exchange() (for return to original CPU)  took 3.52965 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2044.24 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2103.79 MB)
Before=188025
After=206249
NTopleaves= 180468  NTopnodes=206249 (space for 244687)
gravity work-load balance=1.00042   memory-balance=1.00042   SPH work-load balance=0
iter=0 exchange of 0273169892 particles (ret=0)
domain decomposition done. (took 3.93115 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.75955 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000190155 particles. (took 0.0258472 sec)
SO iteration 2: need to repeat for 0000190155 particles. (took 0.0234241 sec)
SO iteration 3: need to repeat for 0000190155 particles. (took 0.024123 sec)
SO iteration 4: need to repeat for 0000190155 particles. (took 0.0247169 sec)
SO iteration 5: need to repeat for 0000190155 particles. (took 0.0249021 sec)
SO iteration 6: need to repeat for 0000190155 particles. (took 0.0249729 sec)
SO iteration 7: need to repeat for 0000190155 particles. (took 0.0250461 sec)
SO iteration 8: need to repeat for 0000190155 particles. (took 0.0248089 sec)
SO iteration 9: need to repeat for 0000190155 particles. (took 0.024895 sec)
SO iteration 10: need to repeat for 0000190155 particles. (took 0.0247719 sec)
SO iteration 11: need to repeat for 0000190155 particles. (took 0.0249341 sec)
SO iteration 12: need to repeat for 0000190155 particles. (took 0.024899 sec)
SO iteration 13: need to repeat for 0000190155 particles. (took 0.0251091 sec)
SO iteration 14: need to repeat for 0000190155 particles. (took 0.025655 sec)
SO iteration 15: need to repeat for 0000189768 particles. (took 0.0248961 sec)
SO iteration 16: need to repeat for 0000001084 particles. (took 0.024477 sec)
SO iteration 17: need to repeat for 0000000051 particles. (took 0.00128913 sec)
SO iteration 18: need to repeat for 0000000003 particles. (took 0.000574827 sec)
SO iteration 1: need to repeat for 0000190155 particles. (took 0.0253949 sec)
SO iteration 2: need to repeat for 0000190155 particles. (took 0.02214 sec)
SO iteration 3: need to repeat for 0000190155 particles. (took 0.0231149 sec)
SO iteration 4: need to repeat for 0000190155 particles. (took 0.022603 sec)
SO iteration 5: need to repeat for 0000190155 particles. (took 0.0226409 sec)
SO iteration 6: need to repeat for 0000190155 particles. (took 0.0237808 sec)
SO iteration 7: need to repeat for 0000190155 particles. (took 0.022594 sec)
SO iteration 8: need to repeat for 0000190155 particles. (took 0.0225592 sec)
SO iteration 9: need to repeat for 0000190155 particles. (took 0.0226021 sec)
SO iteration 10: need to repeat for 0000190155 particles. (took 0.0226281 sec)
SO iteration 11: need to repeat for 0000190155 particles. (took 0.0225081 sec)
SO iteration 12: need to repeat for 0000190155 particles. (took 0.0227101 sec)
SO iteration 13: need to repeat for 0000190155 particles. (took 0.0225959 sec)
SO iteration 14: need to repeat for 0000190155 particles. (took 0.022608 sec)
SO iteration 15: need to repeat for 0000190084 particles. (took 0.0226321 sec)
SO iteration 16: need to repeat for 0000052315 particles. (took 0.0225809 sec)
SO iteration 17: need to repeat for 0000000633 particles. (took 0.010936 sec)
SO iteration 18: need to repeat for 0000000046 particles. (took 0.00100088 sec)
SO iteration 1: need to repeat for 0000190155 particles. (took 0.025465 sec)
SO iteration 2: need to repeat for 0000190155 particles. (took 0.0222149 sec)
SO iteration 3: need to repeat for 0000190155 particles. (took 0.020153 sec)
SO iteration 4: need to repeat for 0000190155 particles. (took 0.0201089 sec)
SO iteration 5: need to repeat for 0000190155 particles. (took 0.019701 sec)
SO iteration 6: need to repeat for 0000190155 particles. (took 0.0197549 sec)
SO iteration 7: need to repeat for 0000190155 particles. (took 0.0196891 sec)
SO iteration 8: need to repeat for 0000190155 particles. (took 0.0197191 sec)
SO iteration 9: need to repeat for 0000190155 particles. (took 0.019697 sec)
SO iteration 10: need to repeat for 0000190155 particles. (took 0.0215509 sec)
SO iteration 11: need to repeat for 0000190155 particles. (took 0.019707 sec)
SO iteration 12: need to repeat for 0000190155 particles. (took 0.0197179 sec)
SO iteration 13: need to repeat for 0000190155 particles. (took 0.019655 sec)
SO iteration 14: need to repeat for 0000190155 particles. (took 0.019676 sec)
SO iteration 15: need to repeat for 0000190151 particles. (took 0.0198021 sec)
SO iteration 16: need to repeat for 0000190146 particles. (took 0.019727 sec)
SO iteration 17: need to repeat for 0000103534 particles. (took 0.019784 sec)
SO iteration 18: need to repeat for 0000002869 particles. (took 0.013818 sec)
SO iteration 19: need to repeat for 0000000107 particles. (took 0.00170207 sec)
SO iteration 20: need to repeat for 0000000003 particles. (took 0.000580072 sec)
SO iteration 1: need to repeat for 0000190155 particles. (took 0.0255861 sec)
SO iteration 2: need to repeat for 0000190155 particles. (took 0.0231891 sec)
SO iteration 3: need to repeat for 0000190155 particles. (took 0.023948 sec)
SO iteration 4: need to repeat for 0000190155 particles. (took 0.024698 sec)
SO iteration 5: need to repeat for 0000190155 particles. (took 0.024775 sec)
SO iteration 6: need to repeat for 0000190155 particles. (took 0.0247259 sec)
SO iteration 7: need to repeat for 0000190155 particles. (took 0.0249271 sec)
SO iteration 8: need to repeat for 0000190155 particles. (took 0.0248461 sec)
SO iteration 9: need to repeat for 0000190155 particles. (took 0.024889 sec)
SO iteration 10: need to repeat for 0000190155 particles. (took 0.025151 sec)
SO iteration 11: need to repeat for 0000190155 particles. (took 0.0248489 sec)
SO iteration 12: need to repeat for 0000190155 particles. (took 0.0248778 sec)
SO iteration 13: need to repeat for 0000190155 particles. (took 0.0248411 sec)
SO iteration 14: need to repeat for 0000190155 particles. (took 0.025003 sec)
SO iteration 15: need to repeat for 0000189773 particles. (took 0.0247331 sec)
SO iteration 16: need to repeat for 0000001109 particles. (took 0.0244582 sec)
SO iteration 17: need to repeat for 0000000051 particles. (took 0.00131106 sec)
SO iteration 18: need to repeat for 0000000003 particles. (took 0.000554085 sec)
SO iteration 1: need to repeat for 0000190155 particles. (took 0.0253749 sec)
SO iteration 2: need to repeat for 0000190155 particles. (took 0.0221851 sec)
SO iteration 3: need to repeat for 0000190155 particles. (took 0.0236869 sec)
SO iteration 4: need to repeat for 0000190155 particles. (took 0.025126 sec)
SO iteration 5: need to repeat for 0000190155 particles. (took 0.0240762 sec)
SO iteration 6: need to repeat for 0000190155 particles. (took 0.0240359 sec)
SO iteration 7: need to repeat for 0000190155 particles. (took 0.023999 sec)
SO iteration 8: need to repeat for 0000190155 particles. (took 0.0245831 sec)
SO iteration 9: need to repeat for 0000190155 particles. (took 0.0241201 sec)
SO iteration 10: need to repeat for 0000190155 particles. (took 0.0241129 sec)
SO iteration 11: need to repeat for 0000190155 particles. (took 0.0240631 sec)
SO iteration 12: need to repeat for 0000190155 particles. (took 0.0243912 sec)
SO iteration 13: need to repeat for 0000190155 particles. (took 0.0243299 sec)
SO iteration 14: need to repeat for 0000190155 particles. (took 0.02404 sec)
SO iteration 15: need to repeat for 0000189921 particles. (took 0.0240009 sec)
SO iteration 16: need to repeat for 0000003254 particles. (took 0.0237479 sec)
SO iteration 17: need to repeat for 0000000115 particles. (took 0.00213194 sec)
SO iteration 18: need to repeat for 0000000008 particles. (took 0.000581026 sec)
SO iteration 1: need to repeat for 0000190155 particles. (took 0.0255408 sec)
SO iteration 2: need to repeat for 0000190155 particles. (took 0.022222 sec)
SO iteration 3: need to repeat for 0000190155 particles. (took 0.0223589 sec)
SO iteration 4: need to repeat for 0000190155 particles. (took 0.02215 sec)
SO iteration 5: need to repeat for 0000190155 particles. (took 0.022146 sec)
SO iteration 6: need to repeat for 0000190155 particles. (took 0.02215 sec)
SO iteration 7: need to repeat for 0000190155 particles. (took 0.0227051 sec)
SO iteration 8: need to repeat for 0000190155 particles. (took 0.022249 sec)
SO iteration 9: need to repeat for 0000190155 particles. (took 0.022229 sec)
SO iteration 10: need to repeat for 0000190155 particles. (took 0.0223799 sec)
SO iteration 11: need to repeat for 0000190155 particles. (took 0.022429 sec)
SO iteration 12: need to repeat for 0000190155 particles. (took 0.022105 sec)
SO iteration 13: need to repeat for 0000190155 particles. (took 0.022903 sec)
SO iteration 14: need to repeat for 0000190155 particles. (took 0.0222502 sec)
SO iteration 15: need to repeat for 0000190114 particles. (took 0.0221 sec)
SO iteration 16: need to repeat for 0000137550 particles. (took 0.022295 sec)
SO iteration 17: need to repeat for 0000001471 particles. (took 0.0181019 sec)
SO iteration 18: need to repeat for 0000000092 particles. (took 0.00130582 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000574112 sec)
SO iteration 1: need to repeat for 0000190155 particles. (took 0.025763 sec)
SO iteration 2: need to repeat for 0000190155 particles. (took 0.0222051 sec)
SO iteration 3: need to repeat for 0000190155 particles. (took 0.0194821 sec)
SO iteration 4: need to repeat for 0000190155 particles. (took 0.0248899 sec)
SO iteration 5: need to repeat for 0000190155 particles. (took 0.0214629 sec)
SO iteration 6: need to repeat for 0000190155 particles. (took 0.035769 sec)
SO iteration 7: need to repeat for 0000190155 particles. (took 0.026083 sec)
SO iteration 8: need to repeat for 0000190155 particles. (took 0.0402641 sec)
SO iteration 9: need to repeat for 0000190155 particles. (took 0.0229931 sec)
SO iteration 10: need to repeat for 0000190155 particles. (took 0.019382 sec)
SO iteration 11: need to repeat for 0000190155 particles. (took 0.0192389 sec)
SO iteration 12: need to repeat for 0000190155 particles. (took 0.0193491 sec)
SO iteration 13: need to repeat for 0000190155 particles. (took 0.019264 sec)
SO iteration 14: need to repeat for 0000190155 particles. (took 0.0195339 sec)
SO iteration 15: need to repeat for 0000190152 particles. (took 0.019305 sec)
SO iteration 16: need to repeat for 0000190149 particles. (took 0.0193381 sec)
SO iteration 17: need to repeat for 0000163786 particles. (took 0.0192921 sec)
SO iteration 18: need to repeat for 0000007747 particles. (took 0.0178409 sec)
SO iteration 19: need to repeat for 0000000160 particles. (took 0.00300598 sec)
SO iteration 20: need to repeat for 0000000009 particles. (took 0.000616074 sec)
determining spherical overdensity masses took 2.72815 sec
finding spherical overdensity particles took 0.599909 sec
determining contamination of halos took 0.275902 sec
Global sort of Groups took 0.172589 sec
Global sort of SubGroups took 0.680981 sec
Global sort of IDs took 0.498959 sec
Writing block 0 (GLEN), n=874, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3496d
Writing block 1 (GOFF), n=874, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3496d
Writing block 2 (MTOT), n=874, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3496d
Writing block 3 (GPOS), n=874, ptype=0, dtype=1, ndim=3, bpb=4 bytes=10488d
Writing block 4 (MMEA), n=874, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3496d
Writing block 5 (RMEA), n=874, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3496d
Writing block 6 (MCRI), n=874, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3496d
Writing block 7 (RCRI), n=874, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3496d
Writing block 8 (MTOP), n=874, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3496d
Writing block 9 (RTOP), n=874, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3496d
Writing block 17 (NCON), n=874, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3496d
Writing block 18 (MCON), n=874, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3496d
Writing block 22 (NSUB), n=874, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3496d
Writing block 23 (FSUB), n=874, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3496d
Writing block 24 (SLEN), n=3457, ptype=1, dtype=0, ndim=1, bpb=4 bytes=13828d
Writing block 25 (SOFF), n=3457, ptype=1, dtype=0, ndim=1, bpb=4 bytes=13828d
Writing block 27 (MSUB), n=3457, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 28 (SPOS), n=3457, ptype=1, dtype=1, ndim=3, bpb=4 bytes=41484d
Writing block 29 (SVEL), n=3457, ptype=1, dtype=1, ndim=3, bpb=4 bytes=41484d
Writing block 30 (SCM ), n=3457, ptype=1, dtype=1, ndim=3, bpb=4 bytes=41484d
Writing block 33 (VMAX), n=3457, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 34 (RMAX), n=3457, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 35 (RHMS), n=3457, ptype=1, dtype=1, ndim=6, bpb=4 bytes=82968d
Writing block 36 (MTRH), n=3457, ptype=1, dtype=1, ndim=6, bpb=4 bytes=82968d
Writing block 37 (MBID), n=3457, ptype=1, dtype=2, ndim=1, bpb=8 bytes=27656d
Writing block 38 (GRNR), n=3457, ptype=1, dtype=0, ndim=1, bpb=4 bytes=13828d
Writing block 39 (SUBN), n=3457, ptype=1, dtype=0, ndim=1, bpb=4 bytes=13828d
Writing block 40 (SMST), n=3457, ptype=1, dtype=1, ndim=6, bpb=4 bytes=82968d
Writing block 53 (PID ), n=486379, ptype=2, dtype=2, ndim=1, bpb=8 bytes=3891032d
Writing block 54 (SLEN), n=3457, ptype=1, dtype=0, ndim=6, bpb=4 bytes=82968d
Writing block 55 (STEN), n=3457, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 56 (SKEN), n=3457, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 57 (SUEN), n=3457, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 58 (SUIT), n=3457, ptype=1, dtype=1, ndim=9, bpb=4 bytes=124452d
Writing block 59 (BHMA), n=3457, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 60 (BHMD), n=3457, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 61 (SVD ), n=3457, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 62 (SVDH), n=3457, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 63 (HMPR), n=3457, ptype=1, dtype=1, ndim=6, bpb=4 bytes=82968d
Writing block 64 (SSFR), n=3457, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 65 (SSA ), n=3457, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 66 (SSBZ), n=3457, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 67 (SSIM), n=3457, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 68 (SSPI), n=3457, ptype=4, dtype=1, ndim=3, bpb=4 bytes=41484d
Writing block 69 (GSPI), n=3457, ptype=1, dtype=1, ndim=3, bpb=4 bytes=41484d
Writing block 70 (FSPI), n=3457, ptype=5, dtype=1, ndim=3, bpb=4 bytes=41484d
Writing block 71 (SFM ), n=3457, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 72 (SFMT), n=3457, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 73 (SFME), n=3457, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 74 (SFAE), n=3457, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 75 (SFKE), n=3457, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 76 (SFTE), n=3457, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 77 (SMWP), n=3457, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 78 (SMM ), n=3457, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 79 (SMMS), n=3457, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 80 (SFZ ), n=3457, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 81 (SFZS), n=3457, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 82 (SSIA), n=3457, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 83 (SIAS), n=3457, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 84 (SMET), n=3457, ptype=5, dtype=1, ndim=9, bpb=4 bytes=124452d
Writing block 85 (SMTS), n=3457, ptype=5, dtype=1, ndim=9, bpb=4 bytes=124452d
Writing block 86 (MF1 ), n=3457, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 87 (MeF1), n=3457, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 88 (MF  ), n=3457, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 89 (MeF2), n=3457, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 90 (MFA ), n=3457, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 91 (MeFA), n=3457, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 92 (NSPI), n=3457, ptype=6, dtype=1, ndim=3, bpb=4 bytes=41484d
Writing block 93 (NFM ), n=3457, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 94 (NFMT), n=3457, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 95 (NFME), n=3457, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 96 (NFAE), n=3457, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 97 (NFKE), n=3457, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 98 (NFTE), n=3457, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 99 (SMWP), n=3457, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 100 (SMM ), n=3457, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 101 (SMMS), n=3457, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 102 (SSIA), n=3457, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 103 (SIAS), n=3457, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 104 (SMET), n=3457, ptype=6, dtype=1, ndim=9, bpb=4 bytes=124452d
Writing block 105 (SMTS), n=3457, ptype=6, dtype=1, ndim=9, bpb=4 bytes=124452d
Writing block 106 (MF1 ), n=3457, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 107 (MeF1), n=3457, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 108 (MF2 ), n=3457, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 109 (MeF2), n=3457, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 110 (MFA ), n=3457, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 111 (MeFA), n=3457, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 112 (SM  ), n=3457, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 113 (SFKE), n=3457, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 114 (SFAE), n=3457, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 115 (SMWP), n=3457, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 116 (SMM ), n=3457, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 117 (SMMS), n=3457, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 118 (SSIA), n=3457, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 119 (SIAS), n=3457, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 120 (SMET), n=3457, ptype=4, dtype=1, ndim=9, bpb=4 bytes=124452d
Writing block 121 (SMTS), n=3457, ptype=4, dtype=1, ndim=9, bpb=4 bytes=124452d
Writing block 122 (MF1 ), n=3457, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 123 (MeF1), n=3457, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 124 (MF2 ), n=3457, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 125 (MeF2), n=3457, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 126 (MFA ), n=3457, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 127 (MeFA), n=3457, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13828d
Writing block 128 (MMe5), n=874, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3496d
Writing block 129 (RMe5), n=874, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3496d
Writing block 130 (MCr5), n=874, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3496d
Writing block 131 (RCr5), n=874, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3496d
Writing block 132 (MMe2), n=874, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3496d
Writing block 133 (RMe2), n=874, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3496d
Writing block 134 (MCr2), n=874, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3496d
Writing block 135 (RCr2), n=874, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3496d
Writing block 136 (MAPT), n=3457, ptype=7, dtype=1, ndim=60, bpb=4 bytes=829680d
Writing block 137 (SAPT), n=3457, ptype=8, dtype=1, ndim=10, bpb=4 bytes=138280d
Writing block 138 (VAPT), n=3457, ptype=9, dtype=1, ndim=10, bpb=4 bytes=138280d
Writing block 139 (BEGY), n=486379, ptype=2, dtype=1, ndim=1, bpb=4 bytes=1945516d
Subgroup catalogues saved. took = 7.04729 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 7.155068e-01
 eagle_ph_key_ort: type= 2 timed by volker 4.411197e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.458714e-02
 eagle_ph_key_ort: type= 4 timed by volker 4.458714e-02
 eagle_ph_key_ort: type= 5 timed by volker 4.458714e-02
 eagle_ph_key_ort: timing parallel sort = 8.111491e-01
 eagle_fetch_elements: we are using 1578090630 bytes of memory, FreeBytes= 1972613288

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 2068.77 Mbyte (on task=0), Smallest = 1320.5 Mbyte, Average = 1344.08 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0258    1203.0398  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5340    1227.5738  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8901    1268.4639  fof_fof()/fof.c/337
   0 2975 0             Group      1.1486    1269.6125  fof_fof()/fof.c/380
   0 2976 0          SubGroup    774.6285    2044.2410  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5284    2068.7694  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1894379 number of bytes = 606201280

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3573.73 Mbyte (on task=0), Smallest = 2824.61 Mbyte, Average = 2848.93 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0258    1203.0398  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5340    1227.5738  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8901    1268.4639  fof_fof()/fof.c/337
   0 2975 0             Group      1.1486    1269.6125  fof_fof()/fof.c/380
   0 2976 0          SubGroup    774.6285    2044.2410  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5284    2068.7694  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      7.2265    2075.9959  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      7.2265    2083.2223  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      7.2265    2090.4488  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    578.1186    2668.5674  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    578.1186    3246.6860  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    327.0447    3573.7307  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.418309e+00
 eagle_fetch_elements: we are using 1578090630 bytes of memory, FreeBytes= 1972613288
 eagle_fetch_elements: max_bytes= 504, max_elements= 1547147 number of bytes = 779762088
 eagle_ph_key_ort: timing parallel SphP exchange = 6.382942e-03
 eagle_fetch_elements: we are using 1578090630 bytes of memory, FreeBytes= 1972613288
 eagle_fetch_elements: max_bytes= 384, max_elements= 2023193 number of bytes = 776906112
 eagle_ph_key_ort: timing parallel MetP exchange = 4.742146e-04
 eagle_fetch_elements: we are using 1578090630 bytes of memory, FreeBytes= 1972613288
 eagle_fetch_elements: max_bytes= 256, max_elements= 3011623 number of bytes = 770975488
 eagle_ph_key_ort: timing parallel BHP exchange = 4.529953e-04
Sorting particle-data by peano-hilbert key took = 3.61626 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1578090630 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1894379 number of bytes= 606201280
 eagle_ph_restore: timing parallel P exchange = 2.352207e+00
 eagle_send_elements: we are using 1578090630 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1547147 number of bytes= 779762088
 eagle_ph_restore: timing parallel SphP exchange = 3.648996e-03
 eagle_send_elements: we are using 1578090630 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2023193 number of bytes= 776906112
 eagle_ph_restore: timing parallel MetP exchange = 9.028912e-04
 eagle_send_elements: we are using 1578090630 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 3011623 number of bytes= 770975488
 eagle_ph_restore: timing parallel BHP exchange = 6.809235e-04
Restoring original order after ph key sorting took = 2.37378 sec

finished writing particle file...

Finished with SUBFIND.  (total time=2142.97 sec)

Finished computing FoF groups.  (presently allocated=1203.04 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=182057
After=202161
NTopleaves= 176891  NTopnodes=202161 (space for 244687)
gravity work-load balance=1.00066   memory-balance=1.00066   SPH work-load balance=0
iter=0 exchange of 0273023056 particles (ret=0)
domain decomposition done. (took 4.17839 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.94669 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
task 16: endrun called with an error level of 124


task 16: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
task 128: endrun called with an error level of 124


task 128: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 160: endrun called with an error level of 124


task 160: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
task 176: endrun called with an error level of 124


task 176: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
task 192: endrun called with an error level of 124


task 192: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
Finished FOF, total time doing fof/subfind = 2176.86 s
task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
task 0: endrun called with an error level of 124


    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
task 0: endrun called with an error level of 124


    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.45 Mb (on task=112), Smallest =   62646.05 Mb (on task=0), Average =   62686.80 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1886.01 Mb (on task=0), Smallest =    1798.61 Mb (on task=112), Average =    1845.27 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16339.38 Mb (on task=112), Average =   16351.66 Mb
AllocMem:	 Largest =    1886.01 Mb (on task=0), Smallest =    1798.61 Mb (on task=112), Average =    1845.27 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_012_z000p899/snap_012_z000p899.0.hdf5' on task=0 (contains 17163897 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  16928423  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     23430  (tot=     0000303834) masstab=0
Type 3 (bulge):   212044  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.535132

Setting next time for line of sight file to Time_next= 0.528989

Setting next time for snipshot file to Time_next= 0.534209

Setting next time for fof output to Time_next= 0.534209
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.14102 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=189569
After=200153
NTopleaves= 175134  NTopnodes=200153 (space for 244687)
gravity work-load balance=1.00033   memory-balance=1.00033   SPH work-load balance=0
iter=0 exchange of 0273188987 particles (ret=0)
domain decomposition done. (took 10.0615 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.0386 MByte in top-level domain structure

Allocated 503.504 MByte for BH-tree, and 0.668083 Mbyte for top-leaves.  (presently allocted 1707.11 MB)

Begin Ngb-tree construction.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1753.29 Mbyte (on task=79), Smallest = 1753.18 Mbyte, Average = 1753.28 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  79 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
  79 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
  79 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
  79 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
  79 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
  79 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
  79 2972 0          TopNodes      9.9258    1202.9408  domain_allocate()/domain.c/570
  79 2973 0   DomainNodeIndex      0.6681    1203.6089  force_treeallocate()/forcetree.c/4800
  79 2974 0        Nodes_base    258.6185    1462.2275  force_treeallocate()/forcetree.c/4803
  79 2975 0     Extnodes_base    215.5154    1677.7429  force_treeallocate()/forcetree.c/4811
  79 2976 0          Nextnode     15.0667    1692.8096  force_treeallocate()/forcetree.c/4820
  79 2977 0            Father     14.3032    1707.1129  force_treeallocate()/forcetree.c/4827
  79 2978 0           Ngblist      4.0880    1711.2008  density()/density.c/690
  79 2979 0              Left      8.1759    1719.3767  density()/density.c/692
  79 2980 0             Right      8.1759    1727.5527  density()/density.c/693
  79 2981 0    DataIndexTable      7.0175    1734.5702  density()/density.c/738
  79 2982 0      DataNodeList     18.7134    1753.2837  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.865.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.957.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1707.11 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=180945
After=202281
NTopleaves= 176996  NTopnodes=202281 (space for 244687)
gravity work-load balance=1.00052   memory-balance=1.00052   SPH work-load balance=0
iter=0 exchange of 0273241676 particles (ret=0)
domain decomposition done. (took 4.22052 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.94119 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1203.05 MB)
Tree construction.

Start linking particles (presently allocated=1756.65 MB)
links on local processor done (took 5.73719 sec).
Marked=0047664849 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1858.26 MB) 
have done 0000989677 cross links (processed 0047664849, took 2.51516 sec)
have done 0000416220 cross links (processed 0034488264, took 2.32912 sec)
have done 0000282788 cross links (processed 0027832715, took 1.87256 sec)
have done 0000183135 cross links (processed 0017180098, took 1.63499 sec)
have done 0000112788 cross links (processed 0010197780, took 0.870993 sec)
have done 0000069782 cross links (processed 0006090183, took 0.962704 sec)
have done 0000042732 cross links (processed 0002957682, took 0.464229 sec)
have done 0000026007 cross links (processed 0002236995, took 0.666161 sec)
have done 0000017740 cross links (processed 0001934778, took 0.525972 sec)
have done 0000011626 cross links (processed 0000984226, took 0.495465 sec)
have done 0000007604 cross links (processed 0000598016, took 0.493089 sec)
have done 0000004616 cross links (processed 0000265749, took 0.409736 sec)
have done 0000002456 cross links (processed 0000220801, took 0.173119 sec)
have done 0000001156 cross links (processed 0000072395, took 0.123503 sec)
have done 0000000457 cross links (processed 0000008419, took 0.046262 sec)
have done 0000000157 cross links (processed 0000002428, took 0.0486629 sec)
have done 0000000061 cross links (processed 0000000684, took 0.04972 sec)
have done 0000000015 cross links (processed 0000000245, took 0.045867 sec)
have done 0000000002 cross links (processed 0000000043, took 0.044663 sec)
have done 0000000001 cross links (processed 0000000004, took 0.0444748 sec)
have done 0000000000 cross links (processed 0000000005, took 0.04462 sec)
Local groups found.

group finding took = 19.6947 sec
Start finding nearest dm-particle (presently allocated=1756.65 MB)
still finding nearest... (presently allocated=1846.11 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.110113 sec
compiling local group data and catalogue took = 0.665998 sec

Total number of groups with at least 32 particles: 220940
Largest group has 7130119 particles.
Total number of particles in groups: 0120960701

group properties are now allocated.. (presently allocated=1269.54 MB)
computation of group properties took = 0.0631518 sec
start global sorting of group catalogues number 12
LargestGroup = 5612.610118; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0518961 sec
Group catalogues globally sorted. took = 0.767808 sec
starting saving of group catalogue number 12
data//groups_012_z000p899
Group catalogues number 12 saved. took = 2.22634 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.712928 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.270898 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.711369 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0186650477 particles. (took 20.6734 sec)
ngb iteration 2: need to repeat for 0146266660 particles. (took 9.49501 sec)
ngb iteration 3: need to repeat for 0126790455 particles. (took 6.90098 sec)
ngb iteration 4: need to repeat for 0114948041 particles. (took 5.5837 sec)
ngb iteration 5: need to repeat for 0102970647 particles. (took 4.91879 sec)
ngb iteration 6: need to repeat for 0086670172 particles. (took 4.35423 sec)
ngb iteration 7: need to repeat for 0066465012 particles. (took 3.73995 sec)
ngb iteration 8: need to repeat for 0046389314 particles. (took 3.03816 sec)
ngb iteration 9: need to repeat for 0029995423 particles. (took 2.27743 sec)
ngb iteration 10: need to repeat for 0018364298 particles. (took 1.57839 sec)
ngb iteration 11: need to repeat for 0010846462 particles. (took 1.05386 sec)
ngb iteration 12: need to repeat for 0006267895 particles. (took 0.635029 sec)
ngb iteration 13: need to repeat for 0003577124 particles. (took 0.390627 sec)
ngb iteration 14: need to repeat for 0001944891 particles. (took 0.253376 sec)
ngb iteration 15: need to repeat for 0000925093 particles. (took 0.167827 sec)
ngb iteration 16: need to repeat for 0000448647 particles. (took 0.107324 sec)
ngb iteration 17: need to repeat for 0000222727 particles. (took 0.0766549 sec)
ngb iteration 18: need to repeat for 0000112491 particles. (took 0.0615048 sec)
ngb iteration 19: need to repeat for 0000056280 particles. (took 0.0523691 sec)
ngb iteration 20: need to repeat for 0000027498 particles. (took 0.0472221 sec)
ngb iteration 21: need to repeat for 0000013003 particles. (took 0.044379 sec)
ngb iteration 22: need to repeat for 0000005838 particles. (took 0.0424509 sec)
ngb iteration 23: need to repeat for 0000002501 particles. (took 0.0413389 sec)
ngb iteration 24: need to repeat for 0000000980 particles. (took 0.0407059 sec)
ngb iteration 25: need to repeat for 0000000351 particles. (took 0.0401521 sec)
ngb iteration 26: need to repeat for 0000000132 particles. (took 0.040319 sec)
ngb iteration 27: need to repeat for 0000000037 particles. (took 0.040066 sec)
ngb iteration 28: need to repeat for 0000000011 particles. (took 0.0400782 sec)
ngb iteration 29: need to repeat for 0000000001 particles. (took 0.040097 sec)
final operations ... 
density and smoothing length for species 1 took 66.1391 sec
Tree construction.
tree build took 0.712938 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.272181 sec
Tree construction.
tree build took 0.708365 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.272177 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.174883 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.96614 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.707559 sec
density() of species 1 took 1.19209e-06 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.174756 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.96303 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.175929 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 2.08825 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.962868 sec
saving densities took 2.69655 sec

Number of FOF halos treated with collective SubFind code = 3
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 220937 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 23296 - 60547851 

subfind_exchange()() took 1.95172 sec

collectively doing halo 1, num=12
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2070.96 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2130.52 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 2130.52 Mbyte (on task=0), Smallest = 1355.07 Mbyte, Average = 1380.49 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0313    1203.0453  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5321    1227.5775  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8869    1268.4643  fof_fof()/fof.c/337
   0 2975 0             Group      1.0729    1269.5372  fof_fof()/fof.c/380
   0 2976 0          SubGroup    801.4255    2070.9627  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    2083.2220  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    2111.8284  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    2112.7736  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    2113.7070  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    2114.6404  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    2115.5738  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    2116.5111  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    2117.4484  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    2130.5161  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=137345
After=169609
NTopleaves= 148408  NTopnodes=169609 (space for 244687)
gravity work-load balance=1.00057   memory-balance=1.00057   SPH work-load balance=0
iter=0 exchange of 0007099666 particles (ret=0)
domain decomposition done. (took 1.04104 sec)
Freed 3.4368 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 2578.33 Mbyte (on task=0), Smallest = 1802.88 Mbyte, Average = 1828.3 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0313    1203.0453  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5321    1227.5775  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8869    1268.4643  fof_fof()/fof.c/337
   0 2975 0             Group      1.0729    1269.5372  fof_fof()/fof.c/380
   0 2976 0          SubGroup    801.4255    2070.9627  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.4111    2079.4988  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5661    2080.0650  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    255.8221    2335.8871  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base    213.1851    2549.0722  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9502    2564.0224  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    2578.3257  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.5222 sec  (presently allocated=2578.33 MB)
force_treebuild() took 2.17589 sec (presently allocated=2578.33 MB)
Start find_linkngb (27705 particles on task=0)
find linkngb iteration 1: need to repeat for 0007000073 particles. (took 0.55394 sec)
find linkngb iteration 2: need to repeat for 0006616396 particles. (took 0.367143 sec)
find linkngb iteration 3: need to repeat for 0006315373 particles. (took 0.248847 sec)
find linkngb iteration 4: need to repeat for 0005577560 particles. (took 0.282721 sec)
find linkngb iteration 5: need to repeat for 0004645638 particles. (took 0.24188 sec)
find linkngb iteration 6: need to repeat for 0003368471 particles. (took 0.198419 sec)
find linkngb iteration 7: need to repeat for 0002119554 particles. (took 0.1433 sec)
find linkngb iteration 8: need to repeat for 0001205837 particles. (took 0.0948761 sec)
find linkngb iteration 9: need to repeat for 0000645769 particles. (took 0.0601261 sec)
find linkngb iteration 10: need to repeat for 0000334368 particles. (took 0.0376809 sec)
find linkngb iteration 11: need to repeat for 0000169648 particles. (took 0.024399 sec)
find linkngb iteration 12: need to repeat for 0000036120 particles. (took 0.0167999 sec)
find linkngb iteration 13: need to repeat for 0000000668 particles. (took 0.00893998 sec)
find linkngb iteration 14: need to repeat for 0000000135 particles. (took 0.000708818 sec)
find linkngb iteration 15: need to repeat for 0000000035 particles. (took 0.000443935 sec)
find linkngb iteration 16: need to repeat for 0000000004 particles. (took 0.000406981 sec)
find linkngb iteration 17: need to repeat for 0000000001 particles. (took 0.000389099 sec)
find_linkngb() took 2.2824 sec
Start finding nearest two (27705 particles on task=0)
find_nearesttwo() took 0.447186 sec (presently allocated=2580.44 MB)
parallel sort of densities done. took 0.059957 sec
building distributed linked list. (presently allocated 2580.16 MB)
identification of primary candidates took 186.136 sec
adding background as candidate took 0.159301 sec
establishing of rank order took 57.0406 sec  (p=7130119, grouplen=7130119) presently allocated 2580.16 MB

total number of subhalo candidates=31832

number of subhalo candidates that can be done independently=27850.
(Largest size is 2644, finding them took 0.00879312 sec)
particles are marked (took 38.7567)
independent subhalos are assembled on individual CPUs for unbinding (0.185654 sec, (presently allocated=2580.16 MB)
unbinding of independent ones took 0.0678341 sec
particles have returned to their original processor (0.257257 sec, presently allocated 2580.16 MB)

number of subhalo candidates that can be done independently=3617.
(Largest size is 13967, finding them took 1.18598 sec)
particles are marked (took 26.2758)
independent subhalos are assembled on individual CPUs for unbinding (0.182224 sec, (presently allocated=2580.16 MB)
unbinding of independent ones took 0.406754 sec
particles have returned to their original processor (0.254258 sec, presently allocated 2580.16 MB)

number of subhalo candidates that can be done independently=328.
(Largest size is 62762, finding them took 1.17616 sec)
particles are marked (took 22.9919)
independent subhalos are assembled on individual CPUs for unbinding (0.179995 sec, (presently allocated=2580.16 MB)
unbinding of independent ones took 1.54397 sec
particles have returned to their original processor (0.257365 sec, presently allocated 2580.16 MB)

number of subhalo candidates that can be done independently=33.
(Largest size is 142656, finding them took 0.868082 sec)
particles are marked (took 23.4537)
independent subhalos are assembled on individual CPUs for unbinding (0.184441 sec, (presently allocated=2580.16 MB)
unbinding of independent ones took 4.72405 sec
particles have returned to their original processor (0.268297 sec, presently allocated 2580.16 MB)

number of subhalo candidates that can be done independently=2.
(Largest size is 345812, finding them took 0.646004 sec)
particles are marked (took 15.8269)
independent subhalos are assembled on individual CPUs for unbinding (0.16889 sec, (presently allocated=2580.16 MB)
unbinding of independent ones took 1.68579 sec
particles have returned to their original processor (0.249113 sec, presently allocated 2580.16 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 345812, finding them took 0.652862 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=345812 ... maximum alloacted 2580.27 MB
took 10.789 sec
collective unbinding of nr=1 (2) of length=7130119 ... maximum alloacted 2580.27 MB
took 123.672 sec

the collective unbinding of remaining halos took 148.502 sec

found 2551 bound substructures in FoF group of length 7130119
determination of parent subhalo took 0.0425169 sec (presently allocated 2580.27 MB)
determining substructure properties took 152.973 sec (presently allocated 2580.27 MB)

collectively doing halo 2, num=12
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2070.96 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2130.52 MB)
Before=135385
After=164433
NTopleaves= 143879  NTopnodes=164433 (space for 244687)
gravity work-load balance=1.0005   memory-balance=1.0005   SPH work-load balance=0
iter=0 exchange of 0006275494 particles (ret=0)
domain decomposition done. (took 1.02017 sec)
Freed 3.67374 MByte in top-level domain structure
coldomain_Decomposition() took 1.49737 sec  (presently allocated=2577.16 MB)
force_treebuild() took 2.20768 sec (presently allocated=2577.16 MB)
Start find_linkngb (24556 particles on task=0)
find linkngb iteration 1: need to repeat for 0006216297 particles. (took 0.483553 sec)
find linkngb iteration 2: need to repeat for 0005925878 particles. (took 0.326989 sec)
find linkngb iteration 3: need to repeat for 0005661316 particles. (took 0.221527 sec)
find linkngb iteration 4: need to repeat for 0005007334 particles. (took 0.252924 sec)
find linkngb iteration 5: need to repeat for 0004172817 particles. (took 0.216101 sec)
find linkngb iteration 6: need to repeat for 0003024370 particles. (took 0.177723 sec)
find linkngb iteration 7: need to repeat for 0001902287 particles. (took 0.139702 sec)
find linkngb iteration 8: need to repeat for 0001079737 particles. (took 0.0852351 sec)
find linkngb iteration 9: need to repeat for 0000578046 particles. (took 0.0540929 sec)
find linkngb iteration 10: need to repeat for 0000299446 particles. (took 0.0341358 sec)
find linkngb iteration 11: need to repeat for 0000151961 particles. (took 0.0225251 sec)
find linkngb iteration 12: need to repeat for 0000032339 particles. (took 0.015656 sec)
find linkngb iteration 13: need to repeat for 0000000570 particles. (took 0.00861406 sec)
find linkngb iteration 14: need to repeat for 0000000117 particles. (took 0.000660181 sec)
find linkngb iteration 15: need to repeat for 0000000031 particles. (took 0.000438929 sec)
find linkngb iteration 16: need to repeat for 0000000007 particles. (took 0.000384092 sec)
find linkngb iteration 17: need to repeat for 0000000002 particles. (took 0.000360966 sec)
find_linkngb() took 2.04158 sec
Start finding nearest two (24556 particles on task=0)
find_nearesttwo() took 0.401481 sec (presently allocated=2579.04 MB)
parallel sort of densities done. took 0.054255 sec
building distributed linked list. (presently allocated 2578.79 MB)
identification of primary candidates took 161.43 sec
adding background as candidate took 0.159336 sec
establishing of rank order took 50.7379 sec  (p=6300608, grouplen=6300608) presently allocated 2578.79 MB

total number of subhalo candidates=28747

number of subhalo candidates that can be done independently=25200.
(Largest size is 2898, finding them took 0.007828 sec)
particles are marked (took 34.8499)
independent subhalos are assembled on individual CPUs for unbinding (0.182852 sec, (presently allocated=2578.79 MB)
unbinding of independent ones took 0.0554972 sec
particles have returned to their original processor (0.255342 sec, presently allocated 2578.79 MB)

number of subhalo candidates that can be done independently=3195.
(Largest size is 17320, finding them took 1.2191 sec)
particles are marked (took 23.9784)
independent subhalos are assembled on individual CPUs for unbinding (0.182301 sec, (presently allocated=2578.79 MB)
unbinding of independent ones took 0.378664 sec
particles have returned to their original processor (0.255172 sec, presently allocated 2578.79 MB)

number of subhalo candidates that can be done independently=316.
(Largest size is 35763, finding them took 1.21073 sec)
particles are marked (took 19.0399)
independent subhalos are assembled on individual CPUs for unbinding (0.177582 sec, (presently allocated=2578.79 MB)
unbinding of independent ones took 1.21506 sec
particles have returned to their original processor (0.25248 sec, presently allocated 2578.79 MB)

number of subhalo candidates that can be done independently=31.
(Largest size is 218290, finding them took 0.945058 sec)
particles are marked (took 16.3378)
independent subhalos are assembled on individual CPUs for unbinding (0.170582 sec, (presently allocated=2578.79 MB)
unbinding of independent ones took 1.56729 sec
particles have returned to their original processor (0.247434 sec, presently allocated 2578.79 MB)

number of subhalo candidates that can be done independently=3.
(Largest size is 218290, finding them took 0.661762 sec)
particles are marked (took 15.2971)
independent subhalos are assembled on individual CPUs for unbinding (0.175633 sec, (presently allocated=2578.79 MB)
unbinding of independent ones took 3.68197 sec
particles have returned to their original processor (0.258986 sec, presently allocated 2578.79 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 218290, finding them took 0.660449 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=218290 ... maximum alloacted 2578.89 MB
took 5.19443 sec
collective unbinding of nr=1 (2) of length=6300608 ... maximum alloacted 2578.89 MB
took 109.731 sec

the collective unbinding of remaining halos took 127.599 sec

found 2052 bound substructures in FoF group of length 6300608
determination of parent subhalo took 0.0436451 sec (presently allocated 2578.89 MB)
determining substructure properties took 127.771 sec (presently allocated 2578.89 MB)

collectively doing halo 3, num=12
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2070.96 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2130.52 MB)
Before=147873
After=171073
NTopleaves= 149689  NTopnodes=171073 (space for 244687)
gravity work-load balance=1.00046   memory-balance=1.00046   SPH work-load balance=0
iter=0 exchange of 0002824359 particles (ret=0)
domain decomposition done. (took 0.991944 sec)
Freed 3.36978 MByte in top-level domain structure
coldomain_Decomposition() took 1.46061 sec  (presently allocated=2578.65 MB)
force_treebuild() took 2.18595 sec (presently allocated=2578.65 MB)
Start find_linkngb (11089 particles on task=0)
find linkngb iteration 1: need to repeat for 0002833026 particles. (took 0.201433 sec)
find linkngb iteration 2: need to repeat for 0002783261 particles. (took 0.127069 sec)
find linkngb iteration 3: need to repeat for 0002667913 particles. (took 0.0907941 sec)
find linkngb iteration 4: need to repeat for 0002394124 particles. (took 0.102385 sec)
find linkngb iteration 5: need to repeat for 0002009423 particles. (took 0.090312 sec)
find linkngb iteration 6: need to repeat for 0001463188 particles. (took 0.0778582 sec)
find linkngb iteration 7: need to repeat for 0000922950 particles. (took 0.059324 sec)
find linkngb iteration 8: need to repeat for 0000525248 particles. (took 0.0409451 sec)
find linkngb iteration 9: need to repeat for 0000281326 particles. (took 0.027637 sec)
find linkngb iteration 10: need to repeat for 0000146200 particles. (took 0.0197282 sec)
find linkngb iteration 11: need to repeat for 0000074394 particles. (took 0.0141971 sec)
find linkngb iteration 12: need to repeat for 0000016255 particles. (took 0.0118899 sec)
find linkngb iteration 13: need to repeat for 0000000398 particles. (took 0.00712705 sec)
find linkngb iteration 14: need to repeat for 0000000088 particles. (took 0.00240588 sec)
find linkngb iteration 15: need to repeat for 0000000018 particles. (took 0.000388145 sec)
find linkngb iteration 16: need to repeat for 0000000002 particles. (took 0.000340939 sec)
find linkngb iteration 17: need to repeat for 0000000001 particles. (took 0.000339985 sec)
find_linkngb() took 0.874998 sec
Start finding nearest two (11089 particles on task=0)
find_nearesttwo() took 0.178585 sec (presently allocated=2579.5 MB)
parallel sort of densities done. took 0.045501 sec
building distributed linked list. (presently allocated 2579.39 MB)
identification of primary candidates took 79.6583 sec
adding background as candidate took 0.15816 sec
establishing of rank order took 24.4845 sec  (p=2837489, grouplen=2837489) presently allocated 2579.39 MB

total number of subhalo candidates=11025

number of subhalo candidates that can be done independently=9905.
(Largest size is 2750, finding them took 0.00338292 sec)
particles are marked (took 14.2666)
independent subhalos are assembled on individual CPUs for unbinding (0.176694 sec, (presently allocated=2579.39 MB)
unbinding of independent ones took 0.054363 sec
particles have returned to their original processor (0.242089 sec, presently allocated 2579.39 MB)

number of subhalo candidates that can be done independently=1018.
(Largest size is 7597, finding them took 1.19488 sec)
particles are marked (took 9.16337)
independent subhalos are assembled on individual CPUs for unbinding (0.173408 sec, (presently allocated=2579.39 MB)
unbinding of independent ones took 0.265097 sec
particles have returned to their original processor (0.244339 sec, presently allocated 2579.39 MB)

number of subhalo candidates that can be done independently=90.
(Largest size is 55231, finding them took 0.816097 sec)
particles are marked (took 8.84122)
independent subhalos are assembled on individual CPUs for unbinding (0.178552 sec, (presently allocated=2579.39 MB)
unbinding of independent ones took 1.34195 sec
particles have returned to their original processor (0.264557 sec, presently allocated 2579.39 MB)

number of subhalo candidates that can be done independently=9.
(Largest size is 245260, finding them took 0.651828 sec)
particles are marked (took 7.66924)
independent subhalos are assembled on individual CPUs for unbinding (0.174553 sec, (presently allocated=2579.39 MB)
unbinding of independent ones took 2.30477 sec
particles have returned to their original processor (0.262291 sec, presently allocated 2579.39 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 299059, finding them took 0.650978 sec)
too few, I do the rest of 3 collectively

collective unbinding of nr=0 (3) of length=245260 ... maximum alloacted 2579.43 MB
took 8.12385 sec
collective unbinding of nr=1 (3) of length=299059 ... maximum alloacted 2579.43 MB
took 16.0497 sec
collective unbinding of nr=2 (3) of length=2837489 ... maximum alloacted 2579.43 MB
took 51.2743 sec

the collective unbinding of remaining halos took 80.3051 sec

found 1197 bound substructures in FoF group of length 2837489
determination of parent subhalo took 0.037596 sec (presently allocated 2579.43 MB)
determining substructure properties took 68.5626 sec (presently allocated 2579.43 MB)
processing of collective halos took 1627.27 sec
sort of local particles()() took 0.560948 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 454.475 sec

Task 1: testing particles ...
Task 254: testing particles ...
Task 249: testing particles ...
Task 189: testing particles ...
Task 236: testing particles ...
unsorting of local particles()() took 0.477378 sec
Task 0: testing particles ...
Task 147: testing particles ...
Task 235: testing particles ...
Task 252: testing particles ...
Task 222: testing particles ...
Task 125: testing particles ...
Task 180: testing particles ...
Task 247: testing particles ...
Task 243: testing particles ...
Task 178: testing particles ...
Task 200: testing particles ...
Task 228: testing particles ...
Task 136: testing particles ...
Task 190: testing particles ...
Task 151: testing particles ...
Task 95: testing particles ...
Task 245: testing particles ...
Task 214: testing particles ...
Task 240: testing particles ...
Task 108: testing particles ...
Task 239: testing particles ...
Task 219: testing particles ...
Task 231: testing particles ...
Task 248: testing particles ...
Task 208: testing particles ...
Task 158: testing particles ...
Task 129: testing particles ...
Task 134: testing particles ...
Task 91: testing particles ...
Task 162: testing particles ...
Task 197: testing particles ...
Task 116: testing particles ...
Task 206: testing particles ...
Task 205: testing particles ...
Task 221: testing particles ...
Task 241: testing particles ...
Task 164: testing particles ...
Task 174: testing particles ...
Task 194: testing particles ...
Task 120: testing particles ...
Task 209: testing particles ...
Task 179: testing particles ...
Task 223: testing particles ...
Task 137: testing particles ...
Task 2: testing particles ...
Task 109: testing particles ...
Task 97: testing particles ...
Task 127: testing particles ...
Task 167: testing particles ...
Task 217: testing particles ...
Task 141: testing particles ...
Task 195: testing particles ...
Task 183: testing particles ...
Task 224: testing particles ...
Task 115: testing particles ...
Task 133: testing particles ...
Task 145: testing particles ...
Task 165: testing particles ...
Task 229: testing particles ...
Task 169: testing particles ...
Task 74: testing particles ...
Task 185: testing particles ...
Task 154: testing particles ...
Task 253: testing particles ...
Task 207: testing particles ...
Task 166: testing particles ...
Task 250: testing particles ...
Task 160: testing particles ...
Task 100: testing particles ...
Task 61: testing particles ...
Task 227: testing particles ...
Task 123: testing particles ...
Task 171: testing particles ...
Task 161: testing particles ...
Task 213: testing particles ...
Task 182: testing particles ...
Task 234: testing particles ...
Task 119: testing particles ...
Task 232: testing particles ...
Task 225: testing particles ...
Task 124: testing particles ...
Task 244: testing particles ...
Task 210: testing particles ...
Task 152: testing particles ...
Task 201: testing particles ...
Task 255: testing particles ...
Task 146: testing particles ...
Task 64: testing particles ...
Task 176: testing particles ...
Task 113: testing particles ...
Task 204: testing particles ...
Task 140: testing particles ...
Task 76: testing particles ...
Task 172: testing particles ...
Task 98: testing particles ...
Task 202: testing particles ...
Task 118: testing particles ...
Task 187: testing particles ...
Task 191: testing particles ...
Task 184: testing particles ...
Task 144: testing particles ...
Task 130: testing particles ...
Task 186: testing particles ...
Task 211: testing particles ...
Task 212: testing particles ...
Task 159: testing particles ...
Task 203: testing particles ...
Task 238: testing particles ...
Task 101: testing particles ...
Task 196: testing particles ...
Task 77: testing particles ...
Task 246: testing particles ...
Task 110: testing particles ...
Task 67: testing particles ...
Task 83: testing particles ...
Task 199: testing particles ...
Task 139: testing particles ...
Task 173: testing particles ...
Task 142: testing particles ...
Task 92: testing particles ...
Task 237: testing particles ...
Task 168: testing particles ...
Task 53: testing particles ...
Task 96: testing particles ...
Task 143: testing particles ...
Task 63: testing particles ...
Task 88: testing particles ...
Task 218: testing particles ...
Task 193: testing particles ...
Task 105: testing particles ...
Task 177: testing particles ...
Task 99: testing particles ...
Task 87: testing particles ...
Task 230: testing particles ...
Task 233: testing particles ...
Task 126: testing particles ...
Task 131: testing particles ...
Task 128: testing particles ...
Task 122: testing particles ...
Task 188: testing particles ...
Task 150: testing particles ...
Task 78: testing particles ...
Task 251: testing particles ...
Task 111: testing particles ...
Task 226: testing particles ...
Task 192: testing particles ...
Task 149: testing particles ...
Task 54: testing particles ...
Task 216: testing particles ...
Task 79: testing particles ...
Task 157: testing particles ...
Task 117: testing particles ...
Task 65: testing particles ...
Task 103: testing particles ...
Task 58: testing particles ...
Task 84: testing particles ...
Task 181: testing particles ...
Task 135: testing particles ...
Task 121: testing particles ...
Task 52: testing particles ...
Task 106: testing particles ...
Task 80: testing particles ...
Task 198: testing particles ...
Task 215: testing particles ...
Task 170: testing particles ...
Task 132: testing particles ...
Task 153: testing particles ...
Task 94: testing particles ...
Task 175: testing particles ...
Task 242: testing particles ...
Task 69: testing particles ...
Task 114: testing particles ...
Task 82: testing particles ...
Task 104: testing particles ...
Task 60: testing particles ...
Task 138: testing particles ...
Task 66: testing particles ...
Task 93: testing particles ...
Task 57: testing particles ...
Task 89: testing particles ...
Task 156: testing particles ...
Task 155: testing particles ...
Task 38: testing particles ...
Task 55: testing particles ...
Task 220: testing particles ...
Task 148: testing particles ...
Task 163: testing particles ...
Task 51: testing particles ...
Task 71: testing particles ...
Task 90: testing particles ...
Task 68: testing particles ...
Task 44: testing particles ...
Task 107: testing particles ...
Task 70: testing particles ...
Task 59: testing particles ...
Task 112: testing particles ...
Task 72: testing particles ...
Task 45: testing particles ...
Task 102: testing particles ...
Task 81: testing particles ...
Task 42: testing particles ...
Task 49: testing particles ...
Task 73: testing particles ...
Task 43: testing particles ...
Task 86: testing particles ...
Task 39: testing particles ...
Task 62: testing particles ...
Task 48: testing particles ...
Task 32: testing particles ...
Task 30: testing particles ...
Task 31: testing particles ...
Task 85: testing particles ...
Task 75: testing particles ...
Task 28: testing particles ...
Task 46: testing particles ...
Task 40: testing particles ...
Task 50: testing particles ...
Task 47: testing particles ...
Task 56: testing particles ...
Task 41: testing particles ...
Task 34: testing particles ...
Task 37: testing particles ...
Task 25: testing particles ...
Task 19: testing particles ...
Task 27: testing particles ...
Task 35: testing particles ...
Task 21: testing particles ...
Task 36: testing particles ...
Task 26: testing particles ...
Task 24: testing particles ...
Task 20: testing particles ...
Task 29: testing particles ...
Task 33: testing particles ...
Task 23: testing particles ...
Task 22: testing particles ...
Task 15: testing particles ...
Task 18: testing particles ...
Task 17: testing particles ...
Task 16: testing particles ...
Task 14: testing particles ...
Task 13: testing particles ...
Task 11: testing particles ...
Task 12: testing particles ...
Task 9: testing particles ...
Task 7: testing particles ...
Task 10: testing particles ...
Task 8: testing particles ...
Task 6: testing particles ...
Task 5: testing particles ...
Task 4: testing particles ...
Task 3: testing particles ...
subfind_exchange() (for return to original CPU)  took 4.02626 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2070.96 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2130.52 MB)
Before=187009
After=206601
NTopleaves= 180776  NTopnodes=206601 (space for 244687)
gravity work-load balance=1.00034   memory-balance=1.00034   SPH work-load balance=0
iter=0 exchange of 0273167939 particles (ret=0)
domain decomposition done. (took 3.91893 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.74344 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000186160 particles. (took 0.0312212 sec)
SO iteration 2: need to repeat for 0000186160 particles. (took 0.0235889 sec)
SO iteration 3: need to repeat for 0000186160 particles. (took 0.024313 sec)
SO iteration 4: need to repeat for 0000186160 particles. (took 0.0247042 sec)
SO iteration 5: need to repeat for 0000186160 particles. (took 0.0251181 sec)
SO iteration 6: need to repeat for 0000186160 particles. (took 0.0252631 sec)
SO iteration 7: need to repeat for 0000186160 particles. (took 0.02476 sec)
SO iteration 8: need to repeat for 0000186160 particles. (took 0.03106 sec)
SO iteration 9: need to repeat for 0000186160 particles. (took 0.03352 sec)
SO iteration 10: need to repeat for 0000186160 particles. (took 0.0445249 sec)
SO iteration 11: need to repeat for 0000186160 particles. (took 0.050076 sec)
SO iteration 12: need to repeat for 0000186160 particles. (took 0.025198 sec)
SO iteration 13: need to repeat for 0000186160 particles. (took 0.0248909 sec)
SO iteration 14: need to repeat for 0000186160 particles. (took 0.0247838 sec)
SO iteration 15: need to repeat for 0000185762 particles. (took 0.0247719 sec)
SO iteration 16: need to repeat for 0000000987 particles. (took 0.024363 sec)
SO iteration 17: need to repeat for 0000000061 particles. (took 0.001158 sec)
SO iteration 18: need to repeat for 0000000002 particles. (took 0.000582933 sec)
SO iteration 1: need to repeat for 0000186160 particles. (took 0.0250609 sec)
SO iteration 2: need to repeat for 0000186160 particles. (took 0.0224249 sec)
SO iteration 3: need to repeat for 0000186160 particles. (took 0.023242 sec)
SO iteration 4: need to repeat for 0000186160 particles. (took 0.022752 sec)
SO iteration 5: need to repeat for 0000186160 particles. (took 0.023046 sec)
SO iteration 6: need to repeat for 0000186160 particles. (took 0.0229621 sec)
SO iteration 7: need to repeat for 0000186160 particles. (took 0.0229201 sec)
SO iteration 8: need to repeat for 0000186160 particles. (took 0.022876 sec)
SO iteration 9: need to repeat for 0000186160 particles. (took 0.022788 sec)
SO iteration 10: need to repeat for 0000186160 particles. (took 0.0228 sec)
SO iteration 11: need to repeat for 0000186160 particles. (took 0.022831 sec)
SO iteration 12: need to repeat for 0000186160 particles. (took 0.0228491 sec)
SO iteration 13: need to repeat for 0000186160 particles. (took 0.0229909 sec)
SO iteration 14: need to repeat for 0000186160 particles. (took 0.0228031 sec)
SO iteration 15: need to repeat for 0000186092 particles. (took 0.0228548 sec)
SO iteration 16: need to repeat for 0000046536 particles. (took 0.0227129 sec)
SO iteration 17: need to repeat for 0000000540 particles. (took 0.010273 sec)
SO iteration 18: need to repeat for 0000000047 particles. (took 0.000939131 sec)
SO iteration 1: need to repeat for 0000186160 particles. (took 0.025131 sec)
SO iteration 2: need to repeat for 0000186160 particles. (took 0.021991 sec)
SO iteration 3: need to repeat for 0000186160 particles. (took 0.0198519 sec)
SO iteration 4: need to repeat for 0000186160 particles. (took 0.020431 sec)
SO iteration 5: need to repeat for 0000186160 particles. (took 0.020175 sec)
SO iteration 6: need to repeat for 0000186160 particles. (took 0.020107 sec)
SO iteration 7: need to repeat for 0000186160 particles. (took 0.0201821 sec)
SO iteration 8: need to repeat for 0000186160 particles. (took 0.0207329 sec)
SO iteration 9: need to repeat for 0000186160 particles. (took 0.0201409 sec)
SO iteration 10: need to repeat for 0000186160 particles. (took 0.0201449 sec)
SO iteration 11: need to repeat for 0000186160 particles. (took 0.020575 sec)
SO iteration 12: need to repeat for 0000186160 particles. (took 0.020257 sec)
SO iteration 13: need to repeat for 0000186160 particles. (took 0.0201569 sec)
SO iteration 14: need to repeat for 0000186160 particles. (took 0.020196 sec)
SO iteration 15: need to repeat for 0000186157 particles. (took 0.0200779 sec)
SO iteration 16: need to repeat for 0000186146 particles. (took 0.020185 sec)
SO iteration 17: need to repeat for 0000091451 particles. (took 0.0202181 sec)
SO iteration 18: need to repeat for 0000002253 particles. (took 0.0132751 sec)
SO iteration 19: need to repeat for 0000000104 particles. (took 0.00148702 sec)
SO iteration 20: need to repeat for 0000000004 particles. (took 0.000583887 sec)
SO iteration 1: need to repeat for 0000186160 particles. (took 0.0252361 sec)
SO iteration 2: need to repeat for 0000186160 particles. (took 0.0229189 sec)
SO iteration 3: need to repeat for 0000186160 particles. (took 0.0239768 sec)
SO iteration 4: need to repeat for 0000186160 particles. (took 0.0246232 sec)
SO iteration 5: need to repeat for 0000186160 particles. (took 0.025156 sec)
SO iteration 6: need to repeat for 0000186160 particles. (took 0.024663 sec)
SO iteration 7: need to repeat for 0000186160 particles. (took 0.0247459 sec)
SO iteration 8: need to repeat for 0000186160 particles. (took 0.0247788 sec)
SO iteration 9: need to repeat for 0000186160 particles. (took 0.024718 sec)
SO iteration 10: need to repeat for 0000186160 particles. (took 0.0247469 sec)
SO iteration 11: need to repeat for 0000186160 particles. (took 0.025038 sec)
SO iteration 12: need to repeat for 0000186160 particles. (took 0.0249598 sec)
SO iteration 13: need to repeat for 0000186160 particles. (took 0.0247819 sec)
SO iteration 14: need to repeat for 0000186160 particles. (took 0.024786 sec)
SO iteration 15: need to repeat for 0000185790 particles. (took 0.024617 sec)
SO iteration 16: need to repeat for 0000001128 particles. (took 0.0241659 sec)
SO iteration 17: need to repeat for 0000000064 particles. (took 0.00123119 sec)
SO iteration 18: need to repeat for 0000000002 particles. (took 0.000571012 sec)
SO iteration 1: need to repeat for 0000186160 particles. (took 0.0250082 sec)
SO iteration 2: need to repeat for 0000186160 particles. (took 0.0222859 sec)
SO iteration 3: need to repeat for 0000186160 particles. (took 0.023591 sec)
SO iteration 4: need to repeat for 0000186160 particles. (took 0.0243149 sec)
SO iteration 5: need to repeat for 0000186160 particles. (took 0.0242441 sec)
SO iteration 6: need to repeat for 0000186160 particles. (took 0.024492 sec)
SO iteration 7: need to repeat for 0000186160 particles. (took 0.0241129 sec)
SO iteration 8: need to repeat for 0000186160 particles. (took 0.024051 sec)
SO iteration 9: need to repeat for 0000186160 particles. (took 0.0240989 sec)
SO iteration 10: need to repeat for 0000186160 particles. (took 0.0243371 sec)
SO iteration 11: need to repeat for 0000186160 particles. (took 0.0241849 sec)
SO iteration 12: need to repeat for 0000186160 particles. (took 0.0243411 sec)
SO iteration 13: need to repeat for 0000186160 particles. (took 0.025691 sec)
SO iteration 14: need to repeat for 0000186160 particles. (took 0.0241981 sec)
SO iteration 15: need to repeat for 0000185913 particles. (took 0.0242431 sec)
SO iteration 16: need to repeat for 0000003463 particles. (took 0.024097 sec)
SO iteration 17: need to repeat for 0000000109 particles. (took 0.00215578 sec)
SO iteration 18: need to repeat for 0000000005 particles. (took 0.000622988 sec)
SO iteration 1: need to repeat for 0000186160 particles. (took 0.0251031 sec)
SO iteration 2: need to repeat for 0000186160 particles. (took 0.022068 sec)
SO iteration 3: need to repeat for 0000186160 particles. (took 0.0226939 sec)
SO iteration 4: need to repeat for 0000186160 particles. (took 0.0224621 sec)
SO iteration 5: need to repeat for 0000186160 particles. (took 0.02227 sec)
SO iteration 6: need to repeat for 0000186160 particles. (took 0.0222869 sec)
SO iteration 7: need to repeat for 0000186160 particles. (took 0.022316 sec)
SO iteration 8: need to repeat for 0000186160 particles. (took 0.022351 sec)
SO iteration 9: need to repeat for 0000186160 particles. (took 0.0225122 sec)
SO iteration 10: need to repeat for 0000186160 particles. (took 0.02233 sec)
SO iteration 11: need to repeat for 0000186160 particles. (took 0.0225329 sec)
SO iteration 12: need to repeat for 0000186160 particles. (took 0.022444 sec)
SO iteration 13: need to repeat for 0000186160 particles. (took 0.0223122 sec)
SO iteration 14: need to repeat for 0000186160 particles. (took 0.0228381 sec)
SO iteration 15: need to repeat for 0000186132 particles. (took 0.0222881 sec)
SO iteration 16: need to repeat for 0000145638 particles. (took 0.022295 sec)
SO iteration 17: need to repeat for 0000001366 particles. (took 0.0191202 sec)
SO iteration 18: need to repeat for 0000000095 particles. (took 0.00122499 sec)
SO iteration 19: need to repeat for 0000000003 particles. (took 0.000594854 sec)
SO iteration 1: need to repeat for 0000186160 particles. (took 0.0251029 sec)
SO iteration 2: need to repeat for 0000186160 particles. (took 0.021976 sec)
SO iteration 3: need to repeat for 0000186160 particles. (took 0.0199289 sec)
SO iteration 4: need to repeat for 0000186160 particles. (took 0.0209038 sec)
SO iteration 5: need to repeat for 0000186160 particles. (took 0.0204771 sec)
SO iteration 6: need to repeat for 0000186160 particles. (took 0.0202739 sec)
SO iteration 7: need to repeat for 0000186160 particles. (took 0.0202401 sec)
SO iteration 8: need to repeat for 0000186160 particles. (took 0.020648 sec)
SO iteration 9: need to repeat for 0000186160 particles. (took 0.0200171 sec)
SO iteration 10: need to repeat for 0000186160 particles. (took 0.019906 sec)
SO iteration 11: need to repeat for 0000186160 particles. (took 0.02001 sec)
SO iteration 12: need to repeat for 0000186160 particles. (took 0.019655 sec)
SO iteration 13: need to repeat for 0000186160 particles. (took 0.0199351 sec)
SO iteration 14: need to repeat for 0000186160 particles. (took 0.0202999 sec)
SO iteration 15: need to repeat for 0000186158 particles. (took 0.019865 sec)
SO iteration 16: need to repeat for 0000186152 particles. (took 0.0205829 sec)
SO iteration 17: need to repeat for 0000161312 particles. (took 0.0206029 sec)
SO iteration 18: need to repeat for 0000007028 particles. (took 0.0186071 sec)
SO iteration 19: need to repeat for 0000000178 particles. (took 0.0030489 sec)
SO iteration 20: need to repeat for 0000000009 particles. (took 0.000791073 sec)
determining spherical overdensity masses took 2.75786 sec
finding spherical overdensity particles took 0.685135 sec
determining contamination of halos took 0.209486 sec
Global sort of Groups took 0.168262 sec
Global sort of SubGroups took 0.674242 sec
Global sort of IDs took 0.480808 sec
Writing block 0 (GLEN), n=864, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3456d
Writing block 1 (GOFF), n=864, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3456d
Writing block 2 (MTOT), n=864, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3456d
Writing block 3 (GPOS), n=864, ptype=0, dtype=1, ndim=3, bpb=4 bytes=10368d
Writing block 4 (MMEA), n=864, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3456d
Writing block 5 (RMEA), n=864, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3456d
Writing block 6 (MCRI), n=864, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3456d
Writing block 7 (RCRI), n=864, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3456d
Writing block 8 (MTOP), n=864, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3456d
Writing block 9 (RTOP), n=864, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3456d
Writing block 17 (NCON), n=864, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3456d
Writing block 18 (MCON), n=864, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3456d
Writing block 22 (NSUB), n=864, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3456d
Writing block 23 (FSUB), n=864, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3456d
Writing block 24 (SLEN), n=3376, ptype=1, dtype=0, ndim=1, bpb=4 bytes=13504d
Writing block 25 (SOFF), n=3376, ptype=1, dtype=0, ndim=1, bpb=4 bytes=13504d
Writing block 27 (MSUB), n=3376, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 28 (SPOS), n=3376, ptype=1, dtype=1, ndim=3, bpb=4 bytes=40512d
Writing block 29 (SVEL), n=3376, ptype=1, dtype=1, ndim=3, bpb=4 bytes=40512d
Writing block 30 (SCM ), n=3376, ptype=1, dtype=1, ndim=3, bpb=4 bytes=40512d
Writing block 33 (VMAX), n=3376, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 34 (RMAX), n=3376, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 35 (RHMS), n=3376, ptype=1, dtype=1, ndim=6, bpb=4 bytes=81024d
Writing block 36 (MTRH), n=3376, ptype=1, dtype=1, ndim=6, bpb=4 bytes=81024d
Writing block 37 (MBID), n=3376, ptype=1, dtype=2, ndim=1, bpb=8 bytes=27008d
Writing block 38 (GRNR), n=3376, ptype=1, dtype=0, ndim=1, bpb=4 bytes=13504d
Writing block 39 (SUBN), n=3376, ptype=1, dtype=0, ndim=1, bpb=4 bytes=13504d
Writing block 40 (SMST), n=3376, ptype=1, dtype=1, ndim=6, bpb=4 bytes=81024d
Writing block 53 (PID ), n=430908, ptype=2, dtype=2, ndim=1, bpb=8 bytes=3447264d
Writing block 54 (SLEN), n=3376, ptype=1, dtype=0, ndim=6, bpb=4 bytes=81024d
Writing block 55 (STEN), n=3376, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 56 (SKEN), n=3376, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 57 (SUEN), n=3376, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 58 (SUIT), n=3376, ptype=1, dtype=1, ndim=9, bpb=4 bytes=121536d
Writing block 59 (BHMA), n=3376, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 60 (BHMD), n=3376, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 61 (SVD ), n=3376, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 62 (SVDH), n=3376, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 63 (HMPR), n=3376, ptype=1, dtype=1, ndim=6, bpb=4 bytes=81024d
Writing block 64 (SSFR), n=3376, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 65 (SSA ), n=3376, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 66 (SSBZ), n=3376, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 67 (SSIM), n=3376, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 68 (SSPI), n=3376, ptype=4, dtype=1, ndim=3, bpb=4 bytes=40512d
Writing block 69 (GSPI), n=3376, ptype=1, dtype=1, ndim=3, bpb=4 bytes=40512d
Writing block 70 (FSPI), n=3376, ptype=5, dtype=1, ndim=3, bpb=4 bytes=40512d
Writing block 71 (SFM ), n=3376, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 72 (SFMT), n=3376, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 73 (SFME), n=3376, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 74 (SFAE), n=3376, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 75 (SFKE), n=3376, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 76 (SFTE), n=3376, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 77 (SMWP), n=3376, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 78 (SMM ), n=3376, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 79 (SMMS), n=3376, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 80 (SFZ ), n=3376, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 81 (SFZS), n=3376, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 82 (SSIA), n=3376, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 83 (SIAS), n=3376, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 84 (SMET), n=3376, ptype=5, dtype=1, ndim=9, bpb=4 bytes=121536d
Writing block 85 (SMTS), n=3376, ptype=5, dtype=1, ndim=9, bpb=4 bytes=121536d
Writing block 86 (MF1 ), n=3376, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 87 (MeF1), n=3376, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 88 (MF  ), n=3376, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 89 (MeF2), n=3376, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 90 (MFA ), n=3376, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 91 (MeFA), n=3376, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 92 (NSPI), n=3376, ptype=6, dtype=1, ndim=3, bpb=4 bytes=40512d
Writing block 93 (NFM ), n=3376, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 94 (NFMT), n=3376, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 95 (NFME), n=3376, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 96 (NFAE), n=3376, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 97 (NFKE), n=3376, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 98 (NFTE), n=3376, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 99 (SMWP), n=3376, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 100 (SMM ), n=3376, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 101 (SMMS), n=3376, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 102 (SSIA), n=3376, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 103 (SIAS), n=3376, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 104 (SMET), n=3376, ptype=6, dtype=1, ndim=9, bpb=4 bytes=121536d
Writing block 105 (SMTS), n=3376, ptype=6, dtype=1, ndim=9, bpb=4 bytes=121536d
Writing block 106 (MF1 ), n=3376, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 107 (MeF1), n=3376, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 108 (MF2 ), n=3376, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 109 (MeF2), n=3376, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 110 (MFA ), n=3376, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 111 (MeFA), n=3376, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 112 (SM  ), n=3376, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 113 (SFKE), n=3376, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 114 (SFAE), n=3376, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 115 (SMWP), n=3376, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 116 (SMM ), n=3376, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 117 (SMMS), n=3376, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 118 (SSIA), n=3376, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 119 (SIAS), n=3376, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 120 (SMET), n=3376, ptype=4, dtype=1, ndim=9, bpb=4 bytes=121536d
Writing block 121 (SMTS), n=3376, ptype=4, dtype=1, ndim=9, bpb=4 bytes=121536d
Writing block 122 (MF1 ), n=3376, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 123 (MeF1), n=3376, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 124 (MF2 ), n=3376, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 125 (MeF2), n=3376, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 126 (MFA ), n=3376, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 127 (MeFA), n=3376, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13504d
Writing block 128 (MMe5), n=864, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3456d
Writing block 129 (RMe5), n=864, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3456d
Writing block 130 (MCr5), n=864, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3456d
Writing block 131 (RCr5), n=864, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3456d
Writing block 132 (MMe2), n=864, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3456d
Writing block 133 (RMe2), n=864, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3456d
Writing block 134 (MCr2), n=864, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3456d
Writing block 135 (RCr2), n=864, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3456d
Writing block 136 (MAPT), n=3376, ptype=7, dtype=1, ndim=60, bpb=4 bytes=810240d
Writing block 137 (SAPT), n=3376, ptype=8, dtype=1, ndim=10, bpb=4 bytes=135040d
Writing block 138 (VAPT), n=3376, ptype=9, dtype=1, ndim=10, bpb=4 bytes=135040d
Writing block 139 (BEGY), n=430908, ptype=2, dtype=1, ndim=1, bpb=4 bytes=1723632d
Subgroup catalogues saved. took = 6.63889 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 7.435069e-01
 eagle_ph_key_ort: type= 2 timed by volker 5.010581e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.817295e-02
 eagle_ph_key_ort: type= 4 timed by volker 4.817295e-02
 eagle_ph_key_ort: type= 5 timed by volker 4.817295e-02
 eagle_ph_key_ort: timing parallel sort = 8.466282e-01
 eagle_fetch_elements: we are using 1555694707 bytes of memory, FreeBytes= 1944618384

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 2095.47 Mbyte (on task=0), Smallest = 1320.04 Mbyte, Average = 1345.46 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0313    1203.0453  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5321    1227.5775  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8869    1268.4643  fof_fof()/fof.c/337
   0 2975 0             Group      1.0729    1269.5372  fof_fof()/fof.c/380
   0 2976 0          SubGroup    801.4255    2070.9627  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5047    2095.4674  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1860073 number of bytes = 595223360

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3578.78 Mbyte (on task=0), Smallest = 2803.6 Mbyte, Average = 2828.97 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0313    1203.0453  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5321    1227.5775  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8869    1268.4643  fof_fof()/fof.c/337
   0 2975 0             Group      1.0729    1269.5372  fof_fof()/fof.c/380
   0 2976 0          SubGroup    801.4255    2070.9627  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5047    2095.4674  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      7.0956    2102.5630  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      7.0956    2109.6586  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      7.0956    2116.7542  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    567.6492    2684.4035  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    567.6492    3252.0527  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    326.7288    3578.7815  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.414646e+00
 eagle_fetch_elements: we are using 1555694707 bytes of memory, FreeBytes= 1944618384
 eagle_fetch_elements: max_bytes= 504, max_elements= 1525190 number of bytes = 768695760
 eagle_ph_key_ort: timing parallel SphP exchange = 5.661011e-03
 eagle_fetch_elements: we are using 1555694707 bytes of memory, FreeBytes= 1944618384
 eagle_fetch_elements: max_bytes= 384, max_elements= 1994480 number of bytes = 765880320
 eagle_ph_key_ort: timing parallel MetP exchange = 1.897097e-03
 eagle_fetch_elements: we are using 1555694707 bytes of memory, FreeBytes= 1944618384
 eagle_fetch_elements: max_bytes= 256, max_elements= 2968883 number of bytes = 760034048
 eagle_ph_key_ort: timing parallel BHP exchange = 1.804113e-03
Sorting particle-data by peano-hilbert key took = 3.65033 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1555694707 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1860073 number of bytes= 595223360
 eagle_ph_restore: timing parallel P exchange = 2.344046e+00
 eagle_send_elements: we are using 1555694707 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1525190 number of bytes= 768695760
 eagle_ph_restore: timing parallel SphP exchange = 2.190113e-03
 eagle_send_elements: we are using 1555694707 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1994480 number of bytes= 765880320
 eagle_ph_restore: timing parallel MetP exchange = 7.779598e-04
 eagle_send_elements: we are using 1555694707 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 2968883 number of bytes= 760034048
 eagle_ph_restore: timing parallel BHP exchange = 7.441044e-04
Restoring original order after ph key sorting took = 2.36415 sec

finished writing particle file...

Finished with SUBFIND.  (total time=2236.13 sec)

Finished computing FoF groups.  (presently allocated=1203.05 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=180625
After=202169
NTopleaves= 176898  NTopnodes=202169 (space for 244687)
gravity work-load balance=1.00051   memory-balance=1.00051   SPH work-load balance=0
iter=0 exchange of 0273049671 particles (ret=0)
domain decomposition done. (took 3.95998 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.94632 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 16: endrun called with an error level of 124


task 16: endrun called with an error level of 124


task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
task 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 80: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
task 80: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 112: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
task 112: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
task 128: endrun called with an error level of 124


task 128: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
task 160: endrun called with an error level of 124


task 160: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
task 176: endrun called with an error level of 124


task 176: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
task 192: endrun called with an error level of 124


task 192: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
Finished FOF, total time doing fof/subfind = 2270.8 s
task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0task 0: endrun called with an error level of 124


:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.71 Mb (on task=112), Smallest =   62646.44 Mb (on task=0), Average =   62686.92 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1885.62 Mb (on task=0), Smallest =    1798.36 Mb (on task=112), Average =    1845.15 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16339.40 Mb (on task=112), Average =   16351.67 Mb
AllocMem:	 Largest =    1885.62 Mb (on task=0), Smallest =    1798.36 Mb (on task=112), Average =    1845.15 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_013_z000p795/snap_013_z000p795.0.hdf5' on task=0 (contains 17404033 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  17104055  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     12222  (tot=     0000303834) masstab=0
Type 3 (bulge):   287756  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.562223

Setting next time for line of sight file to Time_next= 0.561533

Setting next time for snipshot file to Time_next= 0.564633

Setting next time for fof output to Time_next= 0.564633
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.10441 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=196593
After=200793
NTopleaves= 175694  NTopnodes=200793 (space for 244687)
gravity work-load balance=1.00034   memory-balance=1.00035   SPH work-load balance=0
iter=0 exchange of 0273242446 particles (ret=0)
domain decomposition done. (took 10.2179 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.00931 MByte in top-level domain structure

Allocated 503.614 MByte for BH-tree, and 0.670219 Mbyte for top-leaves.  (presently allocted 1707.26 MB)

Begin Ngb-tree construction.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1753.43 Mbyte (on task=255), Smallest = 1753.39 Mbyte, Average = 1753.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 255 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
 255 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
 255 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
 255 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
 255 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
 255 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
 255 2972 0          TopNodes      9.9575    1202.9726  domain_allocate()/domain.c/570
 255 2973 0   DomainNodeIndex      0.6702    1203.6428  force_treeallocate()/forcetree.c/4800
 255 2974 0        Nodes_base    258.6771    1462.3199  force_treeallocate()/forcetree.c/4803
 255 2975 0     Extnodes_base    215.5643    1677.8842  force_treeallocate()/forcetree.c/4811
 255 2976 0          Nextnode     15.0692    1692.9534  force_treeallocate()/forcetree.c/4820
 255 2977 0            Father     14.3032    1707.2566  force_treeallocate()/forcetree.c/4827
 255 2978 0           Ngblist      4.0880    1711.3446  density()/density.c/690
 255 2979 0              Left      8.1761    1719.5207  density()/density.c/692
 255 2980 0             Right      8.1761    1727.6968  density()/density.c/693
 255 2981 0    DataIndexTable      7.0175    1734.7143  density()/density.c/738
 255 2982 0      DataNodeList     18.7134    1753.4278  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.778.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.865.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1707.26 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=182041
After=202849
NTopleaves= 177493  NTopnodes=202849 (space for 244687)
gravity work-load balance=1.00048   memory-balance=1.00048   SPH work-load balance=0
iter=0 exchange of 0273030269 particles (ret=0)
domain decomposition done. (took 4.17354 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.91519 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1203.07 MB)
Tree construction.

Start linking particles (presently allocated=1756.78 MB)
links on local processor done (took 6.27705 sec).
Marked=0049916445 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1858.38 MB) 
have done 0000992230 cross links (processed 0049916445, took 2.96068 sec)
have done 0000418981 cross links (processed 0036610637, took 2.60853 sec)
have done 0000289017 cross links (processed 0029981920, took 2.63678 sec)
have done 0000189828 cross links (processed 0020050406, took 1.63898 sec)
have done 0000123158 cross links (processed 0012981216, took 1.80332 sec)
have done 0000083603 cross links (processed 0009011807, took 1.96422 sec)
have done 0000056499 cross links (processed 0006096386, took 1.91064 sec)
have done 0000038224 cross links (processed 0004461787, took 1.84547 sec)
have done 0000024119 cross links (processed 0002566135, took 1.02499 sec)
have done 0000013959 cross links (processed 0001049244, took 0.815589 sec)
have done 0000008489 cross links (processed 0000524969, took 0.245999 sec)
have done 0000004774 cross links (processed 0000224466, took 0.339862 sec)
have done 0000002559 cross links (processed 0000085108, took 0.174162 sec)
have done 0000001291 cross links (processed 0000036901, took 0.067626 sec)
have done 0000000640 cross links (processed 0000015535, took 0.0646582 sec)
have done 0000000280 cross links (processed 0000004823, took 0.0457709 sec)
have done 0000000125 cross links (processed 0000002949, took 0.0462201 sec)
have done 0000000064 cross links (processed 0000001254, took 0.0459559 sec)
have done 0000000020 cross links (processed 0000000232, took 0.0444028 sec)
have done 0000000010 cross links (processed 0000000054, took 0.0444751 sec)
have done 0000000005 cross links (processed 0000000027, took 0.0446501 sec)
have done 0000000002 cross links (processed 0000000013, took 0.0443652 sec)
have done 0000000000 cross links (processed 0000000005, took 0.0444109 sec)
Local groups found.

group finding took = 26.8505 sec
Start finding nearest dm-particle (presently allocated=1756.78 MB)
still finding nearest... (presently allocated=1846.24 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.109507 sec
compiling local group data and catalogue took = 0.652778 sec

Total number of groups with at least 32 particles: 217408
Largest group has 7463378 particles.
Total number of particles in groups: 0124223759

group properties are now allocated.. (presently allocated=1269.66 MB)
computation of group properties took = 0.0664458 sec
start global sorting of group catalogues number 13
LargestGroup = 5874.941341; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0518489 sec
Group catalogues globally sorted. took = 0.747945 sec
starting saving of group catalogue number 13
data//groups_013_z000p795
Group catalogues number 13 saved. took = 2.2009 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.717794 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.26159 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.709994 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0187417187 particles. (took 20.8419 sec)
ngb iteration 2: need to repeat for 0146630434 particles. (took 9.51049 sec)
ngb iteration 3: need to repeat for 0127234425 particles. (took 6.90205 sec)
ngb iteration 4: need to repeat for 0115376109 particles. (took 5.64462 sec)
ngb iteration 5: need to repeat for 0103308750 particles. (took 4.98101 sec)
ngb iteration 6: need to repeat for 0086832948 particles. (took 4.42766 sec)
ngb iteration 7: need to repeat for 0066435315 particles. (took 3.79867 sec)
ngb iteration 8: need to repeat for 0046259557 particles. (took 3.11131 sec)
ngb iteration 9: need to repeat for 0029843162 particles. (took 2.29787 sec)
ngb iteration 10: need to repeat for 0018232887 particles. (took 1.59708 sec)
ngb iteration 11: need to repeat for 0010752497 particles. (took 1.04276 sec)
ngb iteration 12: need to repeat for 0006216377 particles. (took 0.64174 sec)
ngb iteration 13: need to repeat for 0003552132 particles. (took 0.394779 sec)
ngb iteration 14: need to repeat for 0001935224 particles. (took 0.255857 sec)
ngb iteration 15: need to repeat for 0000922740 particles. (took 0.169936 sec)
ngb iteration 16: need to repeat for 0000452694 particles. (took 0.108294 sec)
ngb iteration 17: need to repeat for 0000229161 particles. (took 0.0786238 sec)
ngb iteration 18: need to repeat for 0000117979 particles. (took 0.063401 sec)
ngb iteration 19: need to repeat for 0000060545 particles. (took 0.0553551 sec)
ngb iteration 20: need to repeat for 0000030516 particles. (took 0.049947 sec)
ngb iteration 21: need to repeat for 0000015041 particles. (took 0.0463409 sec)
ngb iteration 22: need to repeat for 0000006957 particles. (took 0.044096 sec)
ngb iteration 23: need to repeat for 0000003089 particles. (took 0.0423491 sec)
ngb iteration 24: need to repeat for 0000001314 particles. (took 0.041131 sec)
ngb iteration 25: need to repeat for 0000000512 particles. (took 0.0405092 sec)
ngb iteration 26: need to repeat for 0000000218 particles. (took 0.040226 sec)
ngb iteration 27: need to repeat for 0000000094 particles. (took 0.0407591 sec)
ngb iteration 28: need to repeat for 0000000022 particles. (took 0.0402651 sec)
ngb iteration 29: need to repeat for 0000000010 particles. (took 0.0401089 sec)
final operations ... 
density and smoothing length for species 1 took 66.7115 sec
Tree construction.
tree build took 0.715847 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.26388 sec
Tree construction.
tree build took 0.711234 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.263488 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.183443 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 2.00332 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.712974 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.167826 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 2.0102 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.173877 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.96861 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.960734 sec
saving densities took 2.88797 sec

Number of FOF halos treated with collective SubFind code = 4
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 217404 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 21536 - 60099015 

subfind_exchange()() took 1.72096 sec

collectively doing halo 1, num=13
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2107.19 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2166.74 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 2166.74 Mbyte (on task=0), Smallest = 1355.1 Mbyte, Average = 1381.89 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0595    1203.0735  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5305    1227.6040  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8841    1268.4881  fof_fof()/fof.c/337
   0 2975 0             Group      1.1766    1269.6647  fof_fof()/fof.c/380
   0 2976 0          SubGroup    837.5224    2107.1871  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    2119.4464  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    2148.0528  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    2148.9979  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    2149.9314  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    2150.8648  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    2151.7982  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    2152.7355  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    2153.6728  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    2166.7405  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=137217
After=168425
NTopleaves= 147372  NTopnodes=168425 (space for 244687)
gravity work-load balance=1.00059   memory-balance=1.00059   SPH work-load balance=0
iter=0 exchange of 0007430296 particles (ret=0)
domain decomposition done. (took 0.945886 sec)
Freed 3.491 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 2614.29 Mbyte (on task=0), Smallest = 1802.64 Mbyte, Average = 1829.43 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0595    1203.0735  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5305    1227.6040  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8841    1268.4881  fof_fof()/fof.c/337
   0 2975 0             Group      1.1766    1269.6647  fof_fof()/fof.c/380
   0 2976 0          SubGroup    837.5224    2107.1871  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.3524    2115.6645  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5622    2116.2267  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    255.7137    2371.9404  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base    213.0948    2585.0352  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9457    2599.9809  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    2614.2841  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.37561 sec  (presently allocated=2614.28 MB)
force_treebuild() took 1.57892 sec (presently allocated=2614.28 MB)
Start find_linkngb (29158 particles on task=0)
find linkngb iteration 1: need to repeat for 0007316272 particles. (took 0.565825 sec)
find linkngb iteration 2: need to repeat for 0006901532 particles. (took 0.40608 sec)
find linkngb iteration 3: need to repeat for 0006588916 particles. (took 0.266357 sec)
find linkngb iteration 4: need to repeat for 0005812421 particles. (took 0.304494 sec)
find linkngb iteration 5: need to repeat for 0004840145 particles. (took 0.259357 sec)
find linkngb iteration 6: need to repeat for 0003508759 particles. (took 0.212167 sec)
find linkngb iteration 7: need to repeat for 0002206342 particles. (took 0.154473 sec)
find linkngb iteration 8: need to repeat for 0001254063 particles. (took 0.100302 sec)
find linkngb iteration 9: need to repeat for 0000670418 particles. (took 0.062752 sec)
find linkngb iteration 10: need to repeat for 0000346512 particles. (took 0.0395582 sec)
find linkngb iteration 11: need to repeat for 0000175672 particles. (took 0.0253789 sec)
find linkngb iteration 12: need to repeat for 0000037422 particles. (took 0.0173359 sec)
find linkngb iteration 13: need to repeat for 0000000768 particles. (took 0.0089581 sec)
find linkngb iteration 14: need to repeat for 0000000172 particles. (took 0.000923157 sec)
find linkngb iteration 15: need to repeat for 0000000049 particles. (took 0.000452995 sec)
find linkngb iteration 16: need to repeat for 0000000008 particles. (took 0.000416994 sec)
find linkngb iteration 17: need to repeat for 0000000002 particles. (took 0.000368118 sec)
find_linkngb() took 2.42647 sec
Start finding nearest two (29158 particles on task=0)
find_nearesttwo() took 0.469466 sec (presently allocated=2616.51 MB)
parallel sort of densities done. took 0.06003 sec
building distributed linked list. (presently allocated 2616.22 MB)
identification of primary candidates took 189.962 sec
adding background as candidate took 0.158386 sec
establishing of rank order took 60.7587 sec  (p=7463378, grouplen=7463378) presently allocated 2616.22 MB

total number of subhalo candidates=34077

number of subhalo candidates that can be done independently=29848.
(Largest size is 5643, finding them took 0.010653 sec)
particles are marked (took 41.3512)
independent subhalos are assembled on individual CPUs for unbinding (0.169319 sec, (presently allocated=2616.22 MB)
unbinding of independent ones took 0.114028 sec
particles have returned to their original processor (0.226975 sec, presently allocated 2616.22 MB)

number of subhalo candidates that can be done independently=3856.
(Largest size is 11499, finding them took 0.825745 sec)
particles are marked (took 28.1837)
independent subhalos are assembled on individual CPUs for unbinding (0.182637 sec, (presently allocated=2616.22 MB)
unbinding of independent ones took 0.235108 sec
particles have returned to their original processor (0.223139 sec, presently allocated 2616.22 MB)

number of subhalo candidates that can be done independently=330.
(Largest size is 41738, finding them took 0.821045 sec)
particles are marked (took 22.0295)
independent subhalos are assembled on individual CPUs for unbinding (0.160532 sec, (presently allocated=2616.22 MB)
unbinding of independent ones took 1.49891 sec
particles have returned to their original processor (0.226451 sec, presently allocated 2616.22 MB)

number of subhalo candidates that can be done independently=38.
(Largest size is 80130, finding them took 0.852518 sec)
particles are marked (took 22.5625)
independent subhalos are assembled on individual CPUs for unbinding (0.165044 sec, (presently allocated=2616.22 MB)
unbinding of independent ones took 5.12347 sec
particles have returned to their original processor (0.230358 sec, presently allocated 2616.22 MB)

number of subhalo candidates that can be done independently=4.
(Largest size is 95659, finding them took 0.438681 sec)
particles are marked (took 18.4504)
independent subhalos are assembled on individual CPUs for unbinding (0.156049 sec, (presently allocated=2616.22 MB)
unbinding of independent ones took 3.01112 sec
particles have returned to their original processor (0.223175 sec, presently allocated 2616.22 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 7463378, finding them took 0.439479 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=7463378 ... maximum alloacted 2616.33 MB
took 126.468 sec

the collective unbinding of remaining halos took 141.399 sec

found 2650 bound substructures in FoF group of length 7463378
determination of parent subhalo took 0.0408859 sec (presently allocated 2616.33 MB)
determining substructure properties took 153.336 sec (presently allocated 2616.33 MB)

collectively doing halo 2, num=13
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2107.19 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2166.74 MB)
Before=139281
After=167969
NTopleaves= 146973  NTopnodes=167969 (space for 244687)
gravity work-load balance=1.00052   memory-balance=1.00052   SPH work-load balance=0
iter=0 exchange of 0006481336 particles (ret=0)
domain decomposition done. (took 0.935991 sec)
Freed 3.51187 MByte in top-level domain structure
coldomain_Decomposition() took 1.3575 sec  (presently allocated=2614.18 MB)
force_treebuild() took 1.54883 sec (presently allocated=2614.18 MB)
Start find_linkngb (25413 particles on task=0)
find linkngb iteration 1: need to repeat for 0006408393 particles. (took 0.502473 sec)
find linkngb iteration 2: need to repeat for 0006100660 particles. (took 0.341482 sec)
find linkngb iteration 3: need to repeat for 0005829191 particles. (took 0.230834 sec)
find linkngb iteration 4: need to repeat for 0005152494 particles. (took 0.26314 sec)
find linkngb iteration 5: need to repeat for 0004294887 particles. (took 0.22435 sec)
find linkngb iteration 6: need to repeat for 0003114026 particles. (took 0.185025 sec)
find linkngb iteration 7: need to repeat for 0001959666 particles. (took 0.134222 sec)
find linkngb iteration 8: need to repeat for 0001113335 particles. (took 0.08881 sec)
find linkngb iteration 9: need to repeat for 0000596267 particles. (took 0.059576 sec)
find linkngb iteration 10: need to repeat for 0000308779 particles. (took 0.0351012 sec)
find linkngb iteration 11: need to repeat for 0000157035 particles. (took 0.0229681 sec)
find linkngb iteration 12: need to repeat for 0000033298 particles. (took 0.01739 sec)
find linkngb iteration 13: need to repeat for 0000000553 particles. (took 0.00875092 sec)
find linkngb iteration 14: need to repeat for 0000000143 particles. (took 0.000604868 sec)
find linkngb iteration 15: need to repeat for 0000000039 particles. (took 0.000429869 sec)
find linkngb iteration 16: need to repeat for 0000000010 particles. (took 0.000406981 sec)
find_linkngb() took 2.11649 sec
Start finding nearest two (25413 particles on task=0)
find_nearesttwo() took 0.415602 sec (presently allocated=2616.12 MB)
parallel sort of densities done. took 0.0555592 sec
building distributed linked list. (presently allocated 2615.87 MB)
identification of primary candidates took 163.286 sec
adding background as candidate took 0.158736 sec
establishing of rank order took 51.8538 sec  (p=6503856, grouplen=6503856) presently allocated 2615.87 MB

total number of subhalo candidates=30217

number of subhalo candidates that can be done independently=26537.
(Largest size is 3934, finding them took 0.008111 sec)
particles are marked (took 36.6434)
independent subhalos are assembled on individual CPUs for unbinding (0.166654 sec, (presently allocated=2615.87 MB)
unbinding of independent ones took 0.094069 sec
particles have returned to their original processor (0.224476 sec, presently allocated 2615.87 MB)

number of subhalo candidates that can be done independently=3365.
(Largest size is 21791, finding them took 0.805998 sec)
particles are marked (took 24.7693)
independent subhalos are assembled on individual CPUs for unbinding (0.166175 sec, (presently allocated=2615.87 MB)
unbinding of independent ones took 0.558944 sec
particles have returned to their original processor (0.222784 sec, presently allocated 2615.87 MB)

number of subhalo candidates that can be done independently=283.
(Largest size is 150922, finding them took 0.804917 sec)
particles are marked (took 19.7757)
independent subhalos are assembled on individual CPUs for unbinding (0.161752 sec, (presently allocated=2615.87 MB)
unbinding of independent ones took 4.20362 sec
particles have returned to their original processor (0.224709 sec, presently allocated 2615.87 MB)

number of subhalo candidates that can be done independently=30.
(Largest size is 69439, finding them took 0.857652 sec)
particles are marked (took 19.9749)
independent subhalos are assembled on individual CPUs for unbinding (0.160504 sec, (presently allocated=2615.87 MB)
unbinding of independent ones took 2.10808 sec
particles have returned to their original processor (0.223632 sec, presently allocated 2615.87 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 17638, finding them took 0.429796 sec)
particles are marked (took 14.0171)
independent subhalos are assembled on individual CPUs for unbinding (0.146931 sec, (presently allocated=2615.87 MB)
unbinding of independent ones took 0.31353 sec
particles have returned to their original processor (0.207948 sec, presently allocated 2615.87 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 6503856, finding them took 0.445522 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=6503856 ... maximum alloacted 2615.97 MB
took 115.065 sec

the collective unbinding of remaining halos took 128.252 sec

found 2041 bound substructures in FoF group of length 6503856
determination of parent subhalo took 0.041049 sec (presently allocated 2615.97 MB)
determining substructure properties took 129.453 sec (presently allocated 2615.97 MB)

collectively doing halo 3, num=13
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2107.19 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2166.74 MB)
Before=143241
After=170729
NTopleaves= 149388  NTopnodes=170729 (space for 244687)
gravity work-load balance=1.0005   memory-balance=1.0005   SPH work-load balance=0
iter=0 exchange of 0005073766 particles (ret=0)
domain decomposition done. (took 0.933425 sec)
Freed 3.38553 MByte in top-level domain structure
coldomain_Decomposition() took 1.35721 sec  (presently allocated=2614.8 MB)
force_treebuild() took 1.53395 sec (presently allocated=2614.8 MB)
Start find_linkngb (19839 particles on task=0)
find linkngb iteration 1: need to repeat for 0005050322 particles. (took 0.396667 sec)
find linkngb iteration 2: need to repeat for 0004870723 particles. (took 0.243616 sec)
find linkngb iteration 3: need to repeat for 0004657830 particles. (took 0.17498 sec)
find linkngb iteration 4: need to repeat for 0004139916 particles. (took 0.190277 sec)
find linkngb iteration 5: need to repeat for 0003460174 particles. (took 0.162908 sec)
find linkngb iteration 6: need to repeat for 0002513608 particles. (took 0.135589 sec)
find linkngb iteration 7: need to repeat for 0001583455 particles. (took 0.100548 sec)
find linkngb iteration 8: need to repeat for 0000901697 particles. (took 0.069627 sec)
find linkngb iteration 9: need to repeat for 0000482369 particles. (took 0.0445962 sec)
find linkngb iteration 10: need to repeat for 0000249668 particles. (took 0.0293331 sec)
find linkngb iteration 11: need to repeat for 0000126841 particles. (took 0.019702 sec)
find linkngb iteration 12: need to repeat for 0000027356 particles. (took 0.0141628 sec)
find linkngb iteration 13: need to repeat for 0000000519 particles. (took 0.00804496 sec)
find linkngb iteration 14: need to repeat for 0000000092 particles. (took 0.000646114 sec)
find linkngb iteration 15: need to repeat for 0000000022 particles. (took 0.000419855 sec)
find linkngb iteration 16: need to repeat for 0000000005 particles. (took 0.000375032 sec)
find linkngb iteration 17: need to repeat for 0000000001 particles. (took 0.000365019 sec)
find_linkngb() took 1.59278 sec
Start finding nearest two (19839 particles on task=0)
find_nearesttwo() took 0.317558 sec (presently allocated=2616.32 MB)
parallel sort of densities done. took 0.052052 sec
building distributed linked list. (presently allocated 2616.12 MB)
identification of primary candidates took 148.929 sec
adding background as candidate took 0.157741 sec
establishing of rank order took 42.1559 sec  (p=5092631, grouplen=5092631) presently allocated 2616.12 MB

total number of subhalo candidates=19669

number of subhalo candidates that can be done independently=17744.
(Largest size is 2380, finding them took 0.00564694 sec)
particles are marked (took 24.757)
independent subhalos are assembled on individual CPUs for unbinding (0.158871 sec, (presently allocated=2616.12 MB)
unbinding of independent ones took 0.0494361 sec
particles have returned to their original processor (0.214294 sec, presently allocated 2616.12 MB)

number of subhalo candidates that can be done independently=1770.
(Largest size is 22578, finding them took 0.797238 sec)
particles are marked (took 16.2562)
independent subhalos are assembled on individual CPUs for unbinding (0.159644 sec, (presently allocated=2616.12 MB)
unbinding of independent ones took 0.453392 sec
particles have returned to their original processor (0.217245 sec, presently allocated 2616.12 MB)

number of subhalo candidates that can be done independently=139.
(Largest size is 38521, finding them took 0.743598 sec)
particles are marked (took 13.7909)
independent subhalos are assembled on individual CPUs for unbinding (0.158463 sec, (presently allocated=2616.12 MB)
unbinding of independent ones took 0.839233 sec
particles have returned to their original processor (0.220504 sec, presently allocated 2616.12 MB)

number of subhalo candidates that can be done independently=11.
(Largest size is 348466, finding them took 0.787846 sec)
particles are marked (took 10.4578)
independent subhalos are assembled on individual CPUs for unbinding (0.162802 sec, (presently allocated=2616.12 MB)
unbinding of independent ones took 1.82436 sec
particles have returned to their original processor (0.232522 sec, presently allocated 2616.12 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 1439469, finding them took 0.42014 sec)
too big candidates, I do the rest collectively

collective unbinding of nr=0 (5) of length=348466 ... maximum alloacted 2616.19 MB
took 10.729 sec
collective unbinding of nr=1 (5) of length=1439469 ... maximum alloacted 2616.19 MB
took 34.3392 sec
collective unbinding of nr=2 (5) of length=80456 ... maximum alloacted 2616.19 MB
took 2.36507 sec
collective unbinding of nr=3 (5) of length=536448 ... maximum alloacted 2616.19 MB
took 10.1445 sec
collective unbinding of nr=4 (5) of length=5092631 ... maximum alloacted 2616.19 MB
took 91.1315 sec

the collective unbinding of remaining halos took 157.338 sec

found 2006 bound substructures in FoF group of length 5092631
determination of parent subhalo took 0.0361369 sec (presently allocated 2616.19 MB)
determining substructure properties took 132.042 sec (presently allocated 2616.19 MB)

collectively doing halo 4, num=13
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2107.19 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2166.74 MB)
Before=148177
After=170297
NTopleaves= 149010  NTopnodes=170297 (space for 244687)
gravity work-load balance=1.00052   memory-balance=1.00052   SPH work-load balance=0
iter=0 exchange of 0002738612 particles (ret=0)
domain decomposition done. (took 0.889602 sec)
Freed 3.4053 MByte in top-level domain structure
coldomain_Decomposition() took 1.31109 sec  (presently allocated=2614.7 MB)
force_treebuild() took 1.55974 sec (presently allocated=2614.7 MB)
Start find_linkngb (10745 particles on task=0)
find linkngb iteration 1: need to repeat for 0002745924 particles. (took 0.186661 sec)
find linkngb iteration 2: need to repeat for 0002701094 particles. (took 0.123319 sec)
find linkngb iteration 3: need to repeat for 0002590312 particles. (took 0.0888019 sec)
find linkngb iteration 4: need to repeat for 0002325842 particles. (took 0.0993581 sec)
find linkngb iteration 5: need to repeat for 0001952174 particles. (took 0.0878711 sec)
find linkngb iteration 6: need to repeat for 0001421169 particles. (took 0.0759158 sec)
find linkngb iteration 7: need to repeat for 0000896725 particles. (took 0.06776 sec)
find linkngb iteration 8: need to repeat for 0000511027 particles. (took 0.0530689 sec)
find linkngb iteration 9: need to repeat for 0000274340 particles. (took 0.0557909 sec)
find linkngb iteration 10: need to repeat for 0000142032 particles. (took 0.0198772 sec)
find linkngb iteration 11: need to repeat for 0000072364 particles. (took 0.0139511 sec)
find linkngb iteration 12: need to repeat for 0000015868 particles. (took 0.0111699 sec)
find linkngb iteration 13: need to repeat for 0000000396 particles. (took 0.00666094 sec)
find linkngb iteration 14: need to repeat for 0000000101 particles. (took 0.000519037 sec)
find linkngb iteration 15: need to repeat for 0000000028 particles. (took 0.000364065 sec)
find linkngb iteration 16: need to repeat for 0000000007 particles. (took 0.000362873 sec)
find linkngb iteration 17: need to repeat for 0000000002 particles. (took 0.000319958 sec)
find_linkngb() took 0.892587 sec
Start finding nearest two (10745 particles on task=0)
find_nearesttwo() took 0.172074 sec (presently allocated=2615.52 MB)
parallel sort of densities done. took 0.044714 sec
building distributed linked list. (presently allocated 2615.42 MB)
identification of primary candidates took 79.3319 sec
adding background as candidate took 0.156664 sec
establishing of rank order took 23.9409 sec  (p=2749295, grouplen=2749295) presently allocated 2615.42 MB

total number of subhalo candidates=10471

number of subhalo candidates that can be done independently=9431.
(Largest size is 2513, finding them took 0.00321484 sec)
particles are marked (took 13.2797)
independent subhalos are assembled on individual CPUs for unbinding (0.149369 sec, (presently allocated=2615.42 MB)
unbinding of independent ones took 0.0371859 sec
particles have returned to their original processor (0.20696 sec, presently allocated 2615.42 MB)

number of subhalo candidates that can be done independently=952.
(Largest size is 13357, finding them took 0.801906 sec)
particles are marked (took 9.0934)
independent subhalos are assembled on individual CPUs for unbinding (0.156198 sec, (presently allocated=2615.42 MB)
unbinding of independent ones took 0.481335 sec
particles have returned to their original processor (0.215935 sec, presently allocated 2615.42 MB)

number of subhalo candidates that can be done independently=78.
(Largest size is 66388, finding them took 0.96038 sec)
particles are marked (took 9.79679)
independent subhalos are assembled on individual CPUs for unbinding (0.163137 sec, (presently allocated=2615.42 MB)
unbinding of independent ones took 1.51956 sec
particles have returned to their original processor (0.23448 sec, presently allocated 2615.42 MB)

number of subhalo candidates that can be done independently=8.
(Largest size is 729523, finding them took 0.425935 sec)
particles are marked (took 6.30046)
independent subhalos are assembled on individual CPUs for unbinding (0.149861 sec, (presently allocated=2615.42 MB)
unbinding of independent ones took 2.04163 sec
particles have returned to their original processor (0.215314 sec, presently allocated 2615.42 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 729523, finding them took 0.425661 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=729523 ... maximum alloacted 2615.46 MB
took 15.0286 sec
collective unbinding of nr=1 (2) of length=2749295 ... maximum alloacted 2615.46 MB
took 54.5163 sec

the collective unbinding of remaining halos took 74.1509 sec

found 1139 bound substructures in FoF group of length 2749295
determination of parent subhalo took 0.0351229 sec (presently allocated 2615.46 MB)
determining substructure properties took 69.3047 sec (presently allocated 2615.46 MB)
processing of collective halos took 2196.58 sec
sort of local particles()() took 0.629376 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 424.694 sec

Task 1: testing particles ...
Task 217: testing particles ...
Task 193: testing particles ...
Task 220: testing particles ...
Task 230: testing particles ...
Task 254: testing particles ...
Task 237: testing particles ...
Task 163: testing particles ...
Task 255: testing particles ...
Task 231: testing particles ...
Task 244: testing particles ...
Task 245: testing particles ...
Task 140: testing particles ...
Task 2: testing particles ...
Task 202: testing particles ...
Task 177: testing particles ...
Task 190: testing particles ...
Task 201: testing particles ...
Task 179: testing particles ...
Task 208: testing particles ...
Task 216: testing particles ...
Task 173: testing particles ...
Task 253: testing particles ...
Task 167: testing particles ...
Task 224: testing particles ...
Task 229: testing particles ...
Task 168: testing particles ...
Task 181: testing particles ...
Task 240: testing particles ...
Task 132: testing particles ...
Task 250: testing particles ...
Task 238: testing particles ...
Task 221: testing particles ...
Task 185: testing particles ...
Task 203: testing particles ...
Task 157: testing particles ...
Task 164: testing particles ...
Task 189: testing particles ...
Task 149: testing particles ...
Task 191: testing particles ...
Task 232: testing particles ...
Task 209: testing particles ...
Task 151: testing particles ...
Task 133: testing particles ...
Task 139: testing particles ...
Task 194: testing particles ...
Task 158: testing particles ...
Task 171: testing particles ...
Task 113: testing particles ...
unsorting of local particles()() took 0.53842 sec
Task 0: testing particles ...
Task 125: testing particles ...
Task 211: testing particles ...
Task 249: testing particles ...
Task 182: testing particles ...
Task 159: testing particles ...
Task 172: testing particles ...
Task 207: testing particles ...
Task 200: testing particles ...
Task 196: testing particles ...
Task 129: testing particles ...
Task 126: testing particles ...
Task 213: testing particles ...
Task 246: testing particles ...
Task 128: testing particles ...
Task 198: testing particles ...
Task 110: testing particles ...
Task 103: testing particles ...
Task 236: testing particles ...
Task 212: testing particles ...
Task 223: testing particles ...
Task 161: testing particles ...
Task 235: testing particles ...
Task 150: testing particles ...
Task 248: testing particles ...
Task 186: testing particles ...
Task 188: testing particles ...
Task 222: testing particles ...
Task 165: testing particles ...
Task 94: testing particles ...
Task 247: testing particles ...
Task 96: testing particles ...
Task 219: testing particles ...
Task 178: testing particles ...
Task 121: testing particles ...
Task 169: testing particles ...
Task 124: testing particles ...
Task 87: testing particles ...
Task 75: testing particles ...
Task 108: testing particles ...
Task 74: testing particles ...
Task 206: testing particles ...
Task 92: testing particles ...
Task 187: testing particles ...
Task 104: testing particles ...
Task 154: testing particles ...
Task 114: testing particles ...
Task 102: testing particles ...
Task 60: testing particles ...
Task 242: testing particles ...
Task 3: testing particles ...
Task 93: testing particles ...
Task 226: testing particles ...
Task 225: testing particles ...
Task 141: testing particles ...
Task 195: testing particles ...
Task 218: testing particles ...
Task 147: testing particles ...
Task 166: testing particles ...
Task 176: testing particles ...
Task 192: testing particles ...
Task 180: testing particles ...
Task 146: testing particles ...
Task 252: testing particles ...
Task 228: testing particles ...
Task 145: testing particles ...
Task 136: testing particles ...
Task 105: testing particles ...
Task 56: testing particles ...
Task 115: testing particles ...
Task 239: testing particles ...
Task 241: testing particles ...
Task 69: testing particles ...
Task 142: testing particles ...
Task 215: testing particles ...
Task 227: testing particles ...
Task 65: testing particles ...
Task 137: testing particles ...
Task 152: testing particles ...
Task 243: testing particles ...
Task 174: testing particles ...
Task 82: testing particles ...
Task 81: testing particles ...
Task 233: testing particles ...
Task 122: testing particles ...
Task 116: testing particles ...
Task 234: testing particles ...
Task 130: testing particles ...
Task 162: testing particles ...
Task 90: testing particles ...
Task 199: testing particles ...
Task 54: testing particles ...
Task 101: testing particles ...
Task 197: testing particles ...
Task 251: testing particles ...
Task 148: testing particles ...
Task 107: testing particles ...
Task 153: testing particles ...
Task 143: testing particles ...
Task 118: testing particles ...
Task 97: testing particles ...
Task 160: testing particles ...
Task 86: testing particles ...
Task 138: testing particles ...
Task 214: testing particles ...
Task 210: testing particles ...
Task 134: testing particles ...
Task 109: testing particles ...
Task 184: testing particles ...
Task 205: testing particles ...
Task 66: testing particles ...
Task 119: testing particles ...
Task 123: testing particles ...
Task 100: testing particles ...
Task 155: testing particles ...
Task 99: testing particles ...
Task 112: testing particles ...
Task 77: testing particles ...
Task 78: testing particles ...
Task 98: testing particles ...
Task 73: testing particles ...
Task 106: testing particles ...
Task 88: testing particles ...
Task 55: testing particles ...
Task 70: testing particles ...
Task 131: testing particles ...
Task 204: testing particles ...
Task 53: testing particles ...
Task 76: testing particles ...
Task 84: testing particles ...
Task 44: testing particles ...
Task 175: testing particles ...
Task 79: testing particles ...
Task 52: testing particles ...
Task 144: testing particles ...
Task 117: testing particles ...
Task 127: testing particles ...
Task 83: testing particles ...
Task 156: testing particles ...
Task 95: testing particles ...
Task 183: testing particles ...
Task 170: testing particles ...
Task 59: testing particles ...
Task 71: testing particles ...
Task 57: testing particles ...
Task 89: testing particles ...
Task 58: testing particles ...
Task 111: testing particles ...
Task 64: testing particles ...
Task 85: testing particles ...
Task 49: testing particles ...
Task 61: testing particles ...
Task 91: testing particles ...
Task 72: testing particles ...
Task 67: testing particles ...
Task 120: testing particles ...
Task 31: testing particles ...
Task 135: testing particles ...
Task 46: testing particles ...
Task 80: testing particles ...
Task 68: testing particles ...
Task 35: testing particles ...
Task 40: testing particles ...
Task 37: testing particles ...
Task 63: testing particles ...
Task 62: testing particles ...
Task 30: testing particles ...
Task 48: testing particles ...
Task 51: testing particles ...
Task 39: testing particles ...
Task 47: testing particles ...
Task 38: testing particles ...
Task 45: testing particles ...
Task 50: testing particles ...
Task 24: testing particles ...
Task 42: testing particles ...
Task 28: testing particles ...
Task 33: testing particles ...
Task 22: testing particles ...
Task 43: testing particles ...
Task 21: testing particles ...
Task 26: testing particles ...
Task 19: testing particles ...
Task 32: testing particles ...
Task 34: testing particles ...
Task 20: testing particles ...
Task 41: testing particles ...
Task 25: testing particles ...
Task 23: testing particles ...
Task 36: testing particles ...
Task 29: testing particles ...
Task 27: testing particles ...
Task 15: testing particles ...
Task 18: testing particles ...
Task 14: testing particles ...
Task 17: testing particles ...
Task 16: testing particles ...
Task 13: testing particles ...
Task 7: testing particles ...
Task 12: testing particles ...
Task 11: testing particles ...
Task 10: testing particles ...
Task 9: testing particles ...
Task 6: testing particles ...
Task 8: testing particles ...
Task 5: testing particles ...
Task 4: testing particles ...
subfind_exchange() (for return to original CPU)  took 3.16151 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2107.19 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2166.74 MB)
Before=188017
After=206937
NTopleaves= 181070  NTopnodes=206937 (space for 244687)
gravity work-load balance=1.00034   memory-balance=1.00034   SPH work-load balance=0
iter=0 exchange of 0272856555 particles (ret=0)
domain decomposition done. (took 4.11135 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.72806 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000182520 particles. (took 0.0313311 sec)
SO iteration 2: need to repeat for 0000182520 particles. (took 0.023649 sec)
SO iteration 3: need to repeat for 0000182520 particles. (took 0.0241761 sec)
SO iteration 4: need to repeat for 0000182520 particles. (took 0.0249081 sec)
SO iteration 5: need to repeat for 0000182520 particles. (took 0.0246789 sec)
SO iteration 6: need to repeat for 0000182520 particles. (took 0.0247452 sec)
SO iteration 7: need to repeat for 0000182520 particles. (took 0.024781 sec)
SO iteration 8: need to repeat for 0000182520 particles. (took 0.0245888 sec)
SO iteration 9: need to repeat for 0000182520 particles. (took 0.0245712 sec)
SO iteration 10: need to repeat for 0000182520 particles. (took 0.0246751 sec)
SO iteration 11: need to repeat for 0000182520 particles. (took 0.0246181 sec)
SO iteration 12: need to repeat for 0000182520 particles. (took 0.024626 sec)
SO iteration 13: need to repeat for 0000182520 particles. (took 0.024653 sec)
SO iteration 14: need to repeat for 0000182520 particles. (took 0.0248919 sec)
SO iteration 15: need to repeat for 0000182067 particles. (took 0.0245869 sec)
SO iteration 16: need to repeat for 0000000859 particles. (took 0.0244548 sec)
SO iteration 17: need to repeat for 0000000055 particles. (took 0.00118709 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000599861 sec)
SO iteration 1: need to repeat for 0000182520 particles. (took 0.0251379 sec)
SO iteration 2: need to repeat for 0000182520 particles. (took 0.022156 sec)
SO iteration 3: need to repeat for 0000182520 particles. (took 0.0229218 sec)
SO iteration 4: need to repeat for 0000182520 particles. (took 0.0227468 sec)
SO iteration 5: need to repeat for 0000182520 particles. (took 0.0229259 sec)
SO iteration 6: need to repeat for 0000182520 particles. (took 0.0229661 sec)
SO iteration 7: need to repeat for 0000182520 particles. (took 0.0227129 sec)
SO iteration 8: need to repeat for 0000182520 particles. (took 0.0226951 sec)
SO iteration 9: need to repeat for 0000182520 particles. (took 0.022433 sec)
SO iteration 10: need to repeat for 0000182520 particles. (took 0.022429 sec)
SO iteration 11: need to repeat for 0000182520 particles. (took 0.022403 sec)
SO iteration 12: need to repeat for 0000182520 particles. (took 0.022455 sec)
SO iteration 13: need to repeat for 0000182520 particles. (took 0.02301 sec)
SO iteration 14: need to repeat for 0000182520 particles. (took 0.02246 sec)
SO iteration 15: need to repeat for 0000182426 particles. (took 0.022944 sec)
SO iteration 16: need to repeat for 0000041424 particles. (took 0.0230639 sec)
SO iteration 17: need to repeat for 0000000467 particles. (took 0.0104041 sec)
SO iteration 18: need to repeat for 0000000044 particles. (took 0.000880957 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000625134 sec)
SO iteration 1: need to repeat for 0000182520 particles. (took 0.0252941 sec)
SO iteration 2: need to repeat for 0000182520 particles. (took 0.0219612 sec)
SO iteration 3: need to repeat for 0000182520 particles. (took 0.0430348 sec)
SO iteration 4: need to repeat for 0000182520 particles. (took 0.0370591 sec)
SO iteration 5: need to repeat for 0000182520 particles. (took 0.0233562 sec)
SO iteration 6: need to repeat for 0000182520 particles. (took 0.0411041 sec)
SO iteration 7: need to repeat for 0000182520 particles. (took 0.023128 sec)
SO iteration 8: need to repeat for 0000182520 particles. (took 0.0199261 sec)
SO iteration 9: need to repeat for 0000182520 particles. (took 0.0200188 sec)
SO iteration 10: need to repeat for 0000182520 particles. (took 0.0201099 sec)
SO iteration 11: need to repeat for 0000182520 particles. (took 0.0201628 sec)
SO iteration 12: need to repeat for 0000182520 particles. (took 0.019927 sec)
SO iteration 13: need to repeat for 0000182520 particles. (took 0.0200071 sec)
SO iteration 14: need to repeat for 0000182520 particles. (took 0.019994 sec)
SO iteration 15: need to repeat for 0000182514 particles. (took 0.0200248 sec)
SO iteration 16: need to repeat for 0000182497 particles. (took 0.0200648 sec)
SO iteration 17: need to repeat for 0000080338 particles. (took 0.0200171 sec)
SO iteration 18: need to repeat for 0000001778 particles. (took 0.0124829 sec)
SO iteration 19: need to repeat for 0000000094 particles. (took 0.00133085 sec)
SO iteration 20: need to repeat for 0000000003 particles. (took 0.000579119 sec)
SO iteration 1: need to repeat for 0000182520 particles. (took 0.0252759 sec)
SO iteration 2: need to repeat for 0000182520 particles. (took 0.0224969 sec)
SO iteration 3: need to repeat for 0000182520 particles. (took 0.0235159 sec)
SO iteration 4: need to repeat for 0000182520 particles. (took 0.024323 sec)
SO iteration 5: need to repeat for 0000182520 particles. (took 0.0243979 sec)
SO iteration 6: need to repeat for 0000182520 particles. (took 0.02457 sec)
SO iteration 7: need to repeat for 0000182520 particles. (took 0.024507 sec)
SO iteration 8: need to repeat for 0000182520 particles. (took 0.0244372 sec)
SO iteration 9: need to repeat for 0000182520 particles. (took 0.024498 sec)
SO iteration 10: need to repeat for 0000182520 particles. (took 0.0245631 sec)
SO iteration 11: need to repeat for 0000182520 particles. (took 0.0244758 sec)
SO iteration 12: need to repeat for 0000182520 particles. (took 0.02458 sec)
SO iteration 13: need to repeat for 0000182520 particles. (took 0.024456 sec)
SO iteration 14: need to repeat for 0000182520 particles. (took 0.0246971 sec)
SO iteration 15: need to repeat for 0000182113 particles. (took 0.024708 sec)
SO iteration 16: need to repeat for 0000001053 particles. (took 0.025609 sec)
SO iteration 17: need to repeat for 0000000065 particles. (took 0.00127292 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000601053 sec)
SO iteration 1: need to repeat for 0000182520 particles. (took 0.0253429 sec)
SO iteration 2: need to repeat for 0000182520 particles. (took 0.0222189 sec)
SO iteration 3: need to repeat for 0000182520 particles. (took 0.0233312 sec)
SO iteration 4: need to repeat for 0000182520 particles. (took 0.0242929 sec)
SO iteration 5: need to repeat for 0000182520 particles. (took 0.0238721 sec)
SO iteration 6: need to repeat for 0000182520 particles. (took 0.023849 sec)
SO iteration 7: need to repeat for 0000182520 particles. (took 0.0238969 sec)
SO iteration 8: need to repeat for 0000182520 particles. (took 0.023766 sec)
SO iteration 9: need to repeat for 0000182520 particles. (took 0.023736 sec)
SO iteration 10: need to repeat for 0000182520 particles. (took 0.0239031 sec)
SO iteration 11: need to repeat for 0000182520 particles. (took 0.0306261 sec)
SO iteration 12: need to repeat for 0000182520 particles. (took 0.0290229 sec)
SO iteration 13: need to repeat for 0000182520 particles. (took 0.0290809 sec)
SO iteration 14: need to repeat for 0000182520 particles. (took 0.0245628 sec)
SO iteration 15: need to repeat for 0000182241 particles. (took 0.0446789 sec)
SO iteration 16: need to repeat for 0000003763 particles. (took 0.0249078 sec)
SO iteration 17: need to repeat for 0000000126 particles. (took 0.00235701 sec)
SO iteration 18: need to repeat for 0000000006 particles. (took 0.000658989 sec)
SO iteration 1: need to repeat for 0000182520 particles. (took 0.0251951 sec)
SO iteration 2: need to repeat for 0000182520 particles. (took 0.0223169 sec)
SO iteration 3: need to repeat for 0000182520 particles. (took 0.022301 sec)
SO iteration 4: need to repeat for 0000182520 particles. (took 0.0221169 sec)
SO iteration 5: need to repeat for 0000182520 particles. (took 0.0221851 sec)
SO iteration 6: need to repeat for 0000182520 particles. (took 0.0221541 sec)
SO iteration 7: need to repeat for 0000182520 particles. (took 0.0220962 sec)
SO iteration 8: need to repeat for 0000182520 particles. (took 0.0221322 sec)
SO iteration 9: need to repeat for 0000182520 particles. (took 0.0222301 sec)
SO iteration 10: need to repeat for 0000182520 particles. (took 0.0221601 sec)
SO iteration 11: need to repeat for 0000182520 particles. (took 0.022104 sec)
SO iteration 12: need to repeat for 0000182520 particles. (took 0.022222 sec)
SO iteration 13: need to repeat for 0000182520 particles. (took 0.0221841 sec)
SO iteration 14: need to repeat for 0000182520 particles. (took 0.0221319 sec)
SO iteration 15: need to repeat for 0000182473 particles. (took 0.02212 sec)
SO iteration 16: need to repeat for 0000155803 particles. (took 0.022156 sec)
SO iteration 17: need to repeat for 0000001397 particles. (took 0.020077 sec)
SO iteration 18: need to repeat for 0000000102 particles. (took 0.00122094 sec)
SO iteration 19: need to repeat for 0000000003 particles. (took 0.000660896 sec)
SO iteration 1: need to repeat for 0000182520 particles. (took 0.0255001 sec)
SO iteration 2: need to repeat for 0000182520 particles. (took 0.0225589 sec)
SO iteration 3: need to repeat for 0000182520 particles. (took 0.0194149 sec)
SO iteration 4: need to repeat for 0000182520 particles. (took 0.0197132 sec)
SO iteration 5: need to repeat for 0000182520 particles. (took 0.01963 sec)
SO iteration 6: need to repeat for 0000182520 particles. (took 0.019526 sec)
SO iteration 7: need to repeat for 0000182520 particles. (took 0.019413 sec)
SO iteration 8: need to repeat for 0000182520 particles. (took 0.0200629 sec)
SO iteration 9: need to repeat for 0000182520 particles. (took 0.0194628 sec)
SO iteration 10: need to repeat for 0000182520 particles. (took 0.0196288 sec)
SO iteration 11: need to repeat for 0000182520 particles. (took 0.0194089 sec)
SO iteration 12: need to repeat for 0000182520 particles. (took 0.0193479 sec)
SO iteration 13: need to repeat for 0000182520 particles. (took 0.01946 sec)
SO iteration 14: need to repeat for 0000182520 particles. (took 0.0194809 sec)
SO iteration 15: need to repeat for 0000182517 particles. (took 0.01987 sec)
SO iteration 16: need to repeat for 0000182508 particles. (took 0.019387 sec)
SO iteration 17: need to repeat for 0000159698 particles. (took 0.0196362 sec)
SO iteration 18: need to repeat for 0000006912 particles. (took 0.0183229 sec)
SO iteration 19: need to repeat for 0000000175 particles. (took 0.00273705 sec)
SO iteration 20: need to repeat for 0000000007 particles. (took 0.00060606 sec)
determining spherical overdensity masses took 2.7767 sec
finding spherical overdensity particles took 0.632599 sec
determining contamination of halos took 0.221011 sec
Global sort of Groups took 0.16529 sec
Global sort of SubGroups took 0.838391 sec
Global sort of IDs took 0.506294 sec
Writing block 0 (GLEN), n=850, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3400d
Writing block 1 (GOFF), n=850, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3400d
Writing block 2 (MTOT), n=850, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3400d
Writing block 3 (GPOS), n=850, ptype=0, dtype=1, ndim=3, bpb=4 bytes=10200d
Writing block 4 (MMEA), n=850, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3400d
Writing block 5 (RMEA), n=850, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3400d
Writing block 6 (MCRI), n=850, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3400d
Writing block 7 (RCRI), n=850, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3400d
Writing block 8 (MTOP), n=850, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3400d
Writing block 9 (RTOP), n=850, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3400d
Writing block 17 (NCON), n=850, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3400d
Writing block 18 (MCON), n=850, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3400d
Writing block 22 (NSUB), n=850, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3400d
Writing block 23 (FSUB), n=850, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3400d
Writing block 24 (SLEN), n=3477, ptype=1, dtype=0, ndim=1, bpb=4 bytes=13908d
Writing block 25 (SOFF), n=3477, ptype=1, dtype=0, ndim=1, bpb=4 bytes=13908d
Writing block 27 (MSUB), n=3477, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 28 (SPOS), n=3477, ptype=1, dtype=1, ndim=3, bpb=4 bytes=41724d
Writing block 29 (SVEL), n=3477, ptype=1, dtype=1, ndim=3, bpb=4 bytes=41724d
Writing block 30 (SCM ), n=3477, ptype=1, dtype=1, ndim=3, bpb=4 bytes=41724d
Writing block 33 (VMAX), n=3477, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 34 (RMAX), n=3477, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 35 (RHMS), n=3477, ptype=1, dtype=1, ndim=6, bpb=4 bytes=83448d
Writing block 36 (MTRH), n=3477, ptype=1, dtype=1, ndim=6, bpb=4 bytes=83448d
Writing block 37 (MBID), n=3477, ptype=1, dtype=2, ndim=1, bpb=8 bytes=27816d
Writing block 38 (GRNR), n=3477, ptype=1, dtype=0, ndim=1, bpb=4 bytes=13908d
Writing block 39 (SUBN), n=3477, ptype=1, dtype=0, ndim=1, bpb=4 bytes=13908d
Writing block 40 (SMST), n=3477, ptype=1, dtype=1, ndim=6, bpb=4 bytes=83448d
Writing block 53 (PID ), n=474251, ptype=2, dtype=2, ndim=1, bpb=8 bytes=3794008d
Writing block 54 (SLEN), n=3477, ptype=1, dtype=0, ndim=6, bpb=4 bytes=83448d
Writing block 55 (STEN), n=3477, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 56 (SKEN), n=3477, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 57 (SUEN), n=3477, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 58 (SUIT), n=3477, ptype=1, dtype=1, ndim=9, bpb=4 bytes=125172d
Writing block 59 (BHMA), n=3477, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 60 (BHMD), n=3477, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 61 (SVD ), n=3477, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 62 (SVDH), n=3477, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 63 (HMPR), n=3477, ptype=1, dtype=1, ndim=6, bpb=4 bytes=83448d
Writing block 64 (SSFR), n=3477, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 65 (SSA ), n=3477, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 66 (SSBZ), n=3477, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 67 (SSIM), n=3477, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 68 (SSPI), n=3477, ptype=4, dtype=1, ndim=3, bpb=4 bytes=41724d
Writing block 69 (GSPI), n=3477, ptype=1, dtype=1, ndim=3, bpb=4 bytes=41724d
Writing block 70 (FSPI), n=3477, ptype=5, dtype=1, ndim=3, bpb=4 bytes=41724d
Writing block 71 (SFM ), n=3477, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 72 (SFMT), n=3477, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 73 (SFME), n=3477, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 74 (SFAE), n=3477, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 75 (SFKE), n=3477, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 76 (SFTE), n=3477, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 77 (SMWP), n=3477, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 78 (SMM ), n=3477, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 79 (SMMS), n=3477, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 80 (SFZ ), n=3477, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 81 (SFZS), n=3477, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 82 (SSIA), n=3477, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 83 (SIAS), n=3477, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 84 (SMET), n=3477, ptype=5, dtype=1, ndim=9, bpb=4 bytes=125172d
Writing block 85 (SMTS), n=3477, ptype=5, dtype=1, ndim=9, bpb=4 bytes=125172d
Writing block 86 (MF1 ), n=3477, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 87 (MeF1), n=3477, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 88 (MF  ), n=3477, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 89 (MeF2), n=3477, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 90 (MFA ), n=3477, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 91 (MeFA), n=3477, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 92 (NSPI), n=3477, ptype=6, dtype=1, ndim=3, bpb=4 bytes=41724d
Writing block 93 (NFM ), n=3477, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 94 (NFMT), n=3477, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 95 (NFME), n=3477, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 96 (NFAE), n=3477, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 97 (NFKE), n=3477, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 98 (NFTE), n=3477, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 99 (SMWP), n=3477, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 100 (SMM ), n=3477, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 101 (SMMS), n=3477, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 102 (SSIA), n=3477, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 103 (SIAS), n=3477, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 104 (SMET), n=3477, ptype=6, dtype=1, ndim=9, bpb=4 bytes=125172d
Writing block 105 (SMTS), n=3477, ptype=6, dtype=1, ndim=9, bpb=4 bytes=125172d
Writing block 106 (MF1 ), n=3477, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 107 (MeF1), n=3477, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 108 (MF2 ), n=3477, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 109 (MeF2), n=3477, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 110 (MFA ), n=3477, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 111 (MeFA), n=3477, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 112 (SM  ), n=3477, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 113 (SFKE), n=3477, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 114 (SFAE), n=3477, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 115 (SMWP), n=3477, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 116 (SMM ), n=3477, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 117 (SMMS), n=3477, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 118 (SSIA), n=3477, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 119 (SIAS), n=3477, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 120 (SMET), n=3477, ptype=4, dtype=1, ndim=9, bpb=4 bytes=125172d
Writing block 121 (SMTS), n=3477, ptype=4, dtype=1, ndim=9, bpb=4 bytes=125172d
Writing block 122 (MF1 ), n=3477, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 123 (MeF1), n=3477, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 124 (MF2 ), n=3477, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 125 (MeF2), n=3477, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 126 (MFA ), n=3477, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 127 (MeFA), n=3477, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13908d
Writing block 128 (MMe5), n=850, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3400d
Writing block 129 (RMe5), n=850, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3400d
Writing block 130 (MCr5), n=850, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3400d
Writing block 131 (RCr5), n=850, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3400d
Writing block 132 (MMe2), n=850, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3400d
Writing block 133 (RMe2), n=850, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3400d
Writing block 134 (MCr2), n=850, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3400d
Writing block 135 (RCr2), n=850, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3400d
Writing block 136 (MAPT), n=3477, ptype=7, dtype=1, ndim=60, bpb=4 bytes=834480d
Writing block 137 (SAPT), n=3477, ptype=8, dtype=1, ndim=10, bpb=4 bytes=139080d
Writing block 138 (VAPT), n=3477, ptype=9, dtype=1, ndim=10, bpb=4 bytes=139080d
Writing block 139 (BEGY), n=474251, ptype=2, dtype=1, ndim=1, bpb=4 bytes=1897004d
Subgroup catalogues saved. took = 7.0974 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 7.076371e-01
 eagle_ph_key_ort: type= 2 timed by volker 6.949711e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.324603e-02
 eagle_ph_key_ort: type= 4 timed by volker 4.324603e-02
 eagle_ph_key_ort: type= 5 timed by volker 4.324603e-02
 eagle_ph_key_ort: timing parallel sort = 8.301768e-01
 eagle_fetch_elements: we are using 1525301548 bytes of memory, FreeBytes= 1906626936

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 2131.7 Mbyte (on task=0), Smallest = 1320.07 Mbyte, Average = 1346.85 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0595    1203.0735  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5305    1227.6040  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8841    1268.4881  fof_fof()/fof.c/337
   0 2975 0             Group      1.1766    1269.6647  fof_fof()/fof.c/380
   0 2976 0          SubGroup    837.5224    2107.1871  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5118    2131.6989  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1813457 number of bytes = 580306240

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3586.12 Mbyte (on task=0), Smallest = 2774.7 Mbyte, Average = 2801.38 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0595    1203.0735  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5305    1227.6040  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8841    1268.4881  fof_fof()/fof.c/337
   0 2975 0             Group      1.1766    1269.6647  fof_fof()/fof.c/380
   0 2976 0          SubGroup    837.5224    2107.1871  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5118    2131.6989  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      6.9178    2138.6167  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      6.9178    2145.5344  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      6.9178    2152.4522  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    553.4232    2705.8754  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    553.4232    3259.2986  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    326.8234    3586.1220  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.616960e+00
 eagle_fetch_elements: we are using 1525301548 bytes of memory, FreeBytes= 1906626936
 eagle_fetch_elements: max_bytes= 504, max_elements= 1495393 number of bytes = 753678072
 eagle_ph_key_ort: timing parallel SphP exchange = 5.944967e-03
 eagle_fetch_elements: we are using 1525301548 bytes of memory, FreeBytes= 1906626936
 eagle_fetch_elements: max_bytes= 384, max_elements= 1955514 number of bytes = 750917376
 eagle_ph_key_ort: timing parallel MetP exchange = 1.672983e-03
 eagle_fetch_elements: we are using 1525301548 bytes of memory, FreeBytes= 1906626936
 eagle_fetch_elements: max_bytes= 256, max_elements= 2910880 number of bytes = 745185280
 eagle_ph_key_ort: timing parallel BHP exchange = 8.208752e-04
Sorting particle-data by peano-hilbert key took = 3.83474 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1525301548 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1813457 number of bytes= 580306240
 eagle_ph_restore: timing parallel P exchange = 2.401939e+00
 eagle_send_elements: we are using 1525301548 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1495393 number of bytes= 753678072
 eagle_ph_restore: timing parallel SphP exchange = 3.369808e-03
 eagle_send_elements: we are using 1525301548 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1955514 number of bytes= 750917376
 eagle_ph_restore: timing parallel MetP exchange = 8.130074e-04
 eagle_send_elements: we are using 1525301548 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 2910880 number of bytes= 745185280
 eagle_ph_restore: timing parallel BHP exchange = 5.760193e-04
Restoring original order after ph key sorting took = 2.42349 sec

finished writing particle file...

Finished with SUBFIND.  (total time=2777.16 sec)

Finished computing FoF groups.  (presently allocated=1203.07 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=181617
After=202601
NTopleaves= 177276  NTopnodes=202601 (space for 244687)
gravity work-load balance=1.00048   memory-balance=1.00048   SPH work-load balance=0
iter=0 exchange of 0272305221 particles (ret=0)
domain decomposition done. (took 3.90793 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.92654 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 16: endrun called with an error level of 124


task 16: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
task 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
task 128: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
task 128: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
task 160: endrun called with an error level of 124


task 160: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 176: endrun called with an error level of 124


task 176: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 192: endrun called with an error level of 124


task 192: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
Finished FOF, total time doing fof/subfind = 2818.86 s
task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
task 0: endrun called with an error level of 124


  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.45 Mb (on task=112), Smallest =   62646.06 Mb (on task=0), Average =   62686.70 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1886.00 Mb (on task=0), Smallest =    1798.61 Mb (on task=112), Average =    1845.37 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16339.41 Mb (on task=112), Average =   16351.68 Mb
AllocMem:	 Largest =    1886.00 Mb (on task=0), Smallest =    1798.61 Mb (on task=112), Average =    1845.37 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_014_z000p703/snap_014_z000p703.0.hdf5' on task=0 (contains 17199728 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  16999277  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     23963  (tot=     0000303834) masstab=0
Type 3 (bulge):   176488  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.590686

Setting next time for line of sight file to Time_next= 0.590177

Setting next time for snipshot file to Time_next= 0.594943

Setting next time for fof output to Time_next= 0.594943
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.18161 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=192993
After=199769
NTopleaves= 174798  NTopnodes=199769 (space for 244687)
gravity work-load balance=1.00042   memory-balance=1.00042   SPH work-load balance=0
iter=0 exchange of 0272953737 particles (ret=0)
domain decomposition done. (took 10.1115 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.05618 MByte in top-level domain structure

Allocated 503.438 MByte for BH-tree, and 0.666801 Mbyte for top-leaves.  (presently allocted 1707.03 MB)

Begin Ngb-tree construction.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1753.2 Mbyte (on task=166), Smallest = 1753.11 Mbyte, Average = 1753.19 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 166 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
 166 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
 166 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
 166 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
 166 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
 166 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
 166 2972 0          TopNodes      9.9068    1202.9218  domain_allocate()/domain.c/570
 166 2973 0   DomainNodeIndex      0.6668    1203.5886  force_treeallocate()/forcetree.c/4800
 166 2974 0        Nodes_base    258.5834    1462.1720  force_treeallocate()/forcetree.c/4803
 166 2975 0     Extnodes_base    215.4861    1677.6581  force_treeallocate()/forcetree.c/4811
 166 2976 0          Nextnode     15.0653    1692.7234  force_treeallocate()/forcetree.c/4820
 166 2977 0            Father     14.3032    1707.0266  force_treeallocate()/forcetree.c/4827
 166 2978 0           Ngblist      4.0883    1711.1150  density()/density.c/690
 166 2979 0              Left      8.1767    1719.2916  density()/density.c/692
 166 2980 0             Right      8.1767    1727.4683  density()/density.c/693
 166 2981 0    DataIndexTable      7.0175    1734.4859  density()/density.c/738
 166 2982 0      DataNodeList     18.7134    1753.1993  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.695.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.778.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1707.03 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=182529
After=202193
NTopleaves= 176919  NTopnodes=202193 (space for 244687)
gravity work-load balance=1.00047   memory-balance=1.00047   SPH work-load balance=0
iter=0 exchange of 0273316975 particles (ret=0)
domain decomposition done. (took 3.86589 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.94522 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1203.04 MB)
Tree construction.

Start linking particles (presently allocated=1756.63 MB)
links on local processor done (took 6.99805 sec).
Marked=0051825374 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1858.24 MB) 
have done 0000994275 cross links (processed 0051825374, took 3.03522 sec)
have done 0000422441 cross links (processed 0038567616, took 2.85052 sec)
have done 0000291906 cross links (processed 0031585168, took 2.70353 sec)
have done 0000187375 cross links (processed 0021690102, took 2.50111 sec)
have done 0000118104 cross links (processed 0012943498, took 1.28061 sec)
have done 0000071241 cross links (processed 0006707184, took 1.47411 sec)
have done 0000043880 cross links (processed 0003594866, took 1.04722 sec)
have done 0000027936 cross links (processed 0002949297, took 1.3311 sec)
have done 0000018690 cross links (processed 0001385112, took 0.912158 sec)
have done 0000010346 cross links (processed 0000604955, took 0.325739 sec)
have done 0000005317 cross links (processed 0000295997, took 0.292421 sec)
have done 0000002509 cross links (processed 0000069003, took 0.10413 sec)
have done 0000001016 cross links (processed 0000015867, took 0.0466552 sec)
have done 0000000379 cross links (processed 0000005466, took 0.0453 sec)
have done 0000000176 cross links (processed 0000002489, took 0.0451419 sec)
have done 0000000059 cross links (processed 0000000847, took 0.0449469 sec)
have done 0000000026 cross links (processed 0000000196, took 0.0444829 sec)
have done 0000000006 cross links (processed 0000000080, took 0.0445168 sec)
have done 0000000005 cross links (processed 0000000020, took 0.044476 sec)
have done 0000000001 cross links (processed 0000000024, took 0.0482249 sec)
have done 0000000000 cross links (processed 0000000003, took 0.0514691 sec)
Local groups found.

group finding took = 25.3708 sec
Start finding nearest dm-particle (presently allocated=1756.63 MB)
still finding nearest... (presently allocated=1846.09 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.111987 sec
compiling local group data and catalogue took = 0.643357 sec

Total number of groups with at least 32 particles: 213880
Largest group has 7865144 particles.
Total number of particles in groups: 0127196443

group properties are now allocated.. (presently allocated=1269.55 MB)
computation of group properties took = 0.0674758 sec
start global sorting of group catalogues number 14
LargestGroup = 6191.199165; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0524161 sec
Group catalogues globally sorted. took = 0.782691 sec
starting saving of group catalogue number 14
data//groups_014_z000p703
Group catalogues number 14 saved. took = 2.23364 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.716403 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.268081 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.708611 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0188088394 particles. (took 20.3024 sec)
ngb iteration 2: need to repeat for 0146920143 particles. (took 9.52338 sec)
ngb iteration 3: need to repeat for 0127581559 particles. (took 6.97715 sec)
ngb iteration 4: need to repeat for 0115696086 particles. (took 5.61685 sec)
ngb iteration 5: need to repeat for 0103543342 particles. (took 4.95423 sec)
ngb iteration 6: need to repeat for 0086921164 particles. (took 4.42059 sec)
ngb iteration 7: need to repeat for 0066348970 particles. (took 3.78057 sec)
ngb iteration 8: need to repeat for 0046068260 particles. (took 3.10322 sec)
ngb iteration 9: need to repeat for 0029644028 particles. (took 2.2868 sec)
ngb iteration 10: need to repeat for 0018066642 particles. (took 1.60568 sec)
ngb iteration 11: need to repeat for 0010634600 particles. (took 1.04172 sec)
ngb iteration 12: need to repeat for 0006137383 particles. (took 0.652706 sec)
ngb iteration 13: need to repeat for 0003503907 particles. (took 0.387743 sec)
ngb iteration 14: need to repeat for 0001902658 particles. (took 0.253093 sec)
ngb iteration 15: need to repeat for 0000901037 particles. (took 0.170005 sec)
ngb iteration 16: need to repeat for 0000442645 particles. (took 0.107359 sec)
ngb iteration 17: need to repeat for 0000224396 particles. (took 0.076494 sec)
ngb iteration 18: need to repeat for 0000116064 particles. (took 0.061271 sec)
ngb iteration 19: need to repeat for 0000059568 particles. (took 0.0524271 sec)
ngb iteration 20: need to repeat for 0000030087 particles. (took 0.04721 sec)
ngb iteration 21: need to repeat for 0000014629 particles. (took 0.0446439 sec)
ngb iteration 22: need to repeat for 0000006790 particles. (took 0.0421689 sec)
ngb iteration 23: need to repeat for 0000003062 particles. (took 0.0413101 sec)
ngb iteration 24: need to repeat for 0000001296 particles. (took 0.0406179 sec)
ngb iteration 25: need to repeat for 0000000496 particles. (took 0.040693 sec)
ngb iteration 26: need to repeat for 0000000175 particles. (took 0.0405099 sec)
ngb iteration 27: need to repeat for 0000000055 particles. (took 0.0401161 sec)
ngb iteration 28: need to repeat for 0000000015 particles. (took 0.0403469 sec)
ngb iteration 29: need to repeat for 0000000001 particles. (took 0.0402651 sec)
final operations ... 
density and smoothing length for species 1 took 66.1497 sec
Tree construction.
tree build took 0.718187 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.269439 sec
Tree construction.
tree build took 0.711243 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.26741 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.17272 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.99538 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.715109 sec
density() of species 1 took 2.14577e-06 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.169987 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.99135 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.174149 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.98693 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.975194 sec
saving densities took 2.2256 sec

Number of FOF halos treated with collective SubFind code = 4
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 213876 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 21312 - 60959067 

subfind_exchange()() took 1.76357 sec

collectively doing halo 1, num=14
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2150.73 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2210.28 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 2210.29 Mbyte (on task=0), Smallest = 1355.21 Mbyte, Average = 1383.1 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0270    1203.0410  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5311    1227.5721  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8852    1268.4573  fof_fof()/fof.c/337
   0 2975 0             Group      1.0926    1269.5499  fof_fof()/fof.c/380
   0 2976 0          SubGroup    881.1817    2150.7316  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    2162.9909  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    2191.5973  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    2192.5424  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    2193.4758  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    2194.4092  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    2195.3426  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    2196.2800  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    2197.2173  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    2210.2850  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=140233
After=171793
NTopleaves= 150319  NTopnodes=171793 (space for 244687)
gravity work-load balance=1.00048   memory-balance=1.00048   SPH work-load balance=0
iter=0 exchange of 0007837560 particles (ret=0)
domain decomposition done. (took 0.966617 sec)
Freed 3.33682 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 2658.59 Mbyte (on task=0), Smallest = 1803.51 Mbyte, Average = 1831.4 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0270    1203.0410  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5311    1227.5721  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8852    1268.4573  fof_fof()/fof.c/337
   0 2975 0             Group      1.0926    1269.5499  fof_fof()/fof.c/380
   0 2976 0          SubGroup    881.1817    2150.7316  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.5194    2159.3760  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5734    2159.9494  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    256.0221    2415.9715  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base    213.3517    2629.3232  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9585    2644.2818  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    2658.5850  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.40108 sec  (presently allocated=2658.58 MB)
force_treebuild() took 1.70495 sec (presently allocated=2658.58 MB)
Start find_linkngb (30735 particles on task=0)
find linkngb iteration 1: need to repeat for 0007688086 particles. (took 0.602041 sec)
find linkngb iteration 2: need to repeat for 0007230536 particles. (took 0.416037 sec)
find linkngb iteration 3: need to repeat for 0006900819 particles. (took 0.284059 sec)
find linkngb iteration 4: need to repeat for 0006081729 particles. (took 0.346362 sec)
find linkngb iteration 5: need to repeat for 0005063240 particles. (took 0.273085 sec)
find linkngb iteration 6: need to repeat for 0003669714 particles. (took 0.224212 sec)
find linkngb iteration 7: need to repeat for 0002308112 particles. (took 0.161673 sec)
find linkngb iteration 8: need to repeat for 0001313057 particles. (took 0.105063 sec)
find linkngb iteration 9: need to repeat for 0000703364 particles. (took 0.066386 sec)
find linkngb iteration 10: need to repeat for 0000364465 particles. (took 0.04141 sec)
find linkngb iteration 11: need to repeat for 0000185148 particles. (took 0.026587 sec)
find linkngb iteration 12: need to repeat for 0000039312 particles. (took 0.01807 sec)
find linkngb iteration 13: need to repeat for 0000000718 particles. (took 0.00925088 sec)
find linkngb iteration 14: need to repeat for 0000000182 particles. (took 0.000752926 sec)
find linkngb iteration 15: need to repeat for 0000000046 particles. (took 0.000451088 sec)
find linkngb iteration 16: need to repeat for 0000000010 particles. (took 0.000412226 sec)
find linkngb iteration 17: need to repeat for 0000000002 particles. (took 0.00040102 sec)
find_linkngb() took 2.57758 sec
Start finding nearest two (30735 particles on task=0)
find_nearesttwo() took 0.495681 sec (presently allocated=2660.93 MB)
parallel sort of densities done. took 0.0620279 sec
building distributed linked list. (presently allocated 2660.63 MB)
identification of primary candidates took 199.093 sec
adding background as candidate took 0.15994 sec
establishing of rank order took 62.309 sec  (p=7865144, grouplen=7865144) presently allocated 2660.63 MB

total number of subhalo candidates=36318

number of subhalo candidates that can be done independently=31874.
(Largest size is 3951, finding them took 0.00990891 sec)
particles are marked (took 44.0043)
independent subhalos are assembled on individual CPUs for unbinding (0.182482 sec, (presently allocated=2660.63 MB)
unbinding of independent ones took 0.080646 sec
particles have returned to their original processor (0.241796 sec, presently allocated 2660.63 MB)

number of subhalo candidates that can be done independently=4019.
(Largest size is 20533, finding them took 0.900329 sec)
particles are marked (took 29.4927)
independent subhalos are assembled on individual CPUs for unbinding (0.17083 sec, (presently allocated=2660.63 MB)
unbinding of independent ones took 0.458277 sec
particles have returned to their original processor (0.235347 sec, presently allocated 2660.63 MB)

number of subhalo candidates that can be done independently=384.
(Largest size is 47182, finding them took 0.882617 sec)
particles are marked (took 25.7907)
independent subhalos are assembled on individual CPUs for unbinding (0.168256 sec, (presently allocated=2660.63 MB)
unbinding of independent ones took 1.29217 sec
particles have returned to their original processor (0.234767 sec, presently allocated 2660.63 MB)

number of subhalo candidates that can be done independently=35.
(Largest size is 232891, finding them took 0.87867 sec)
particles are marked (took 21.7925)
independent subhalos are assembled on individual CPUs for unbinding (0.171641 sec, (presently allocated=2660.63 MB)
unbinding of independent ones took 4.00492 sec
particles have returned to their original processor (0.24483 sec, presently allocated 2660.63 MB)

number of subhalo candidates that can be done independently=4.
(Largest size is 232891, finding them took 0.476055 sec)
particles are marked (took 17.2786)
independent subhalos are assembled on individual CPUs for unbinding (0.151852 sec, (presently allocated=2660.63 MB)
unbinding of independent ones took 0.393357 sec
particles have returned to their original processor (0.219968 sec, presently allocated 2660.63 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 232891, finding them took 0.470334 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=232891 ... maximum alloacted 2660.74 MB
took 4.94359 sec
collective unbinding of nr=1 (2) of length=7865144 ... maximum alloacted 2660.74 MB
took 133.221 sec

the collective unbinding of remaining halos took 154.095 sec

found 2694 bound substructures in FoF group of length 7865144
determination of parent subhalo took 0.042387 sec (presently allocated 2660.74 MB)
determining substructure properties took 161.149 sec (presently allocated 2660.74 MB)

collectively doing halo 2, num=14
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2150.73 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2210.28 MB)
Before=135849
After=165609
NTopleaves= 144908  NTopnodes=165609 (space for 244687)
gravity work-load balance=1.00057   memory-balance=1.00057   SPH work-load balance=0
iter=0 exchange of 0006630110 particles (ret=0)
domain decomposition done. (took 0.965686 sec)
Freed 3.6199 MByte in top-level domain structure
coldomain_Decomposition() took 1.39485 sec  (presently allocated=2657.2 MB)
force_treebuild() took 1.70806 sec (presently allocated=2657.2 MB)
Start find_linkngb (25926 particles on task=0)
find linkngb iteration 1: need to repeat for 0006559906 particles. (took 0.543755 sec)
find linkngb iteration 2: need to repeat for 0006239771 particles. (took 0.358939 sec)
find linkngb iteration 3: need to repeat for 0005961529 particles. (took 0.241548 sec)
find linkngb iteration 4: need to repeat for 0005267261 particles. (took 0.277795 sec)
find linkngb iteration 5: need to repeat for 0004391838 particles. (took 0.235705 sec)
find linkngb iteration 6: need to repeat for 0003185823 particles. (took 0.193158 sec)
find linkngb iteration 7: need to repeat for 0002006657 particles. (took 0.139588 sec)
find linkngb iteration 8: need to repeat for 0001142309 particles. (took 0.091933 sec)
find linkngb iteration 9: need to repeat for 0000611183 particles. (took 0.057976 sec)
find linkngb iteration 10: need to repeat for 0000316585 particles. (took 0.036314 sec)
find linkngb iteration 11: need to repeat for 0000161141 particles. (took 0.023536 sec)
find linkngb iteration 12: need to repeat for 0000034417 particles. (took 0.017 sec)
find linkngb iteration 13: need to repeat for 0000000592 particles. (took 0.00957894 sec)
find linkngb iteration 14: need to repeat for 0000000148 particles. (took 0.000635862 sec)
find linkngb iteration 15: need to repeat for 0000000040 particles. (took 0.000484943 sec)
find linkngb iteration 16: need to repeat for 0000000008 particles. (took 0.000411034 sec)
find linkngb iteration 17: need to repeat for 0000000001 particles. (took 0.00039506 sec)
find_linkngb() took 2.22965 sec
Start finding nearest two (25926 particles on task=0)
find_nearesttwo() took 0.432445 sec (presently allocated=2659.17 MB)
parallel sort of densities done. took 0.055393 sec
building distributed linked list. (presently allocated 2658.92 MB)
identification of primary candidates took 164.67 sec
adding background as candidate took 0.159856 sec
establishing of rank order took 53.3298 sec  (p=6656042, grouplen=6656042) presently allocated 2658.92 MB

total number of subhalo candidates=31557

number of subhalo candidates that can be done independently=27652.
(Largest size is 2954, finding them took 0.00840712 sec)
particles are marked (took 38.0072)
independent subhalos are assembled on individual CPUs for unbinding (0.172353 sec, (presently allocated=2658.92 MB)
unbinding of independent ones took 0.0622921 sec
particles have returned to their original processor (0.235261 sec, presently allocated 2658.92 MB)

number of subhalo candidates that can be done independently=3571.
(Largest size is 16230, finding them took 0.899036 sec)
particles are marked (took 24.8699)
independent subhalos are assembled on individual CPUs for unbinding (0.167022 sec, (presently allocated=2658.92 MB)
unbinding of independent ones took 0.451186 sec
particles have returned to their original processor (0.232162 sec, presently allocated 2658.92 MB)

number of subhalo candidates that can be done independently=305.
(Largest size is 23140, finding them took 0.894819 sec)
particles are marked (took 19.7145)
independent subhalos are assembled on individual CPUs for unbinding (0.162162 sec, (presently allocated=2658.92 MB)
unbinding of independent ones took 0.675815 sec
particles have returned to their original processor (0.229685 sec, presently allocated 2658.92 MB)

number of subhalo candidates that can be done independently=27.
(Largest size is 106419, finding them took 0.96193 sec)
particles are marked (took 19.2076)
independent subhalos are assembled on individual CPUs for unbinding (0.172144 sec, (presently allocated=2658.92 MB)
unbinding of independent ones took 4.97792 sec
particles have returned to their original processor (0.248419 sec, presently allocated 2658.92 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 12175, finding them took 0.477882 sec)
particles are marked (took 14.4919)
independent subhalos are assembled on individual CPUs for unbinding (0.150034 sec, (presently allocated=2658.92 MB)
unbinding of independent ones took 0.199179 sec
particles have returned to their original processor (0.216832 sec, presently allocated 2658.92 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 6656042, finding them took 0.420261 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=6656042 ... maximum alloacted 2659.02 MB
took 125.778 sec

the collective unbinding of remaining halos took 139.573 sec

found 1983 bound substructures in FoF group of length 6656042
determination of parent subhalo took 0.041327 sec (presently allocated 2659.02 MB)
determining substructure properties took 128.483 sec (presently allocated 2659.02 MB)

collectively doing halo 3, num=14
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2150.73 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2210.28 MB)
Before=142273
After=169809
NTopleaves= 148583  NTopnodes=169809 (space for 244687)
gravity work-load balance=1.00052   memory-balance=1.00052   SPH work-load balance=0
iter=0 exchange of 0005669841 particles (ret=0)
domain decomposition done. (took 0.968992 sec)
Freed 3.42764 MByte in top-level domain structure
coldomain_Decomposition() took 1.39459 sec  (presently allocated=2658.14 MB)
force_treebuild() took 1.69977 sec (presently allocated=2658.14 MB)
Start find_linkngb (22165 particles on task=0)
find linkngb iteration 1: need to repeat for 0005630178 particles. (took 0.416259 sec)
find linkngb iteration 2: need to repeat for 0005400443 particles. (took 0.280746 sec)
find linkngb iteration 3: need to repeat for 0005160663 particles. (took 0.210924 sec)
find linkngb iteration 4: need to repeat for 0004578010 particles. (took 0.25595 sec)
find linkngb iteration 5: need to repeat for 0003824838 particles. (took 0.191123 sec)
find linkngb iteration 6: need to repeat for 0002779197 particles. (took 0.155311 sec)
find linkngb iteration 7: need to repeat for 0001751448 particles. (took 0.117688 sec)
find linkngb iteration 8: need to repeat for 0000996937 particles. (took 0.0769541 sec)
find linkngb iteration 9: need to repeat for 0000533553 particles. (took 0.0493109 sec)
find linkngb iteration 10: need to repeat for 0000276534 particles. (took 0.031522 sec)
find linkngb iteration 11: need to repeat for 0000141087 particles. (took 0.0215371 sec)
find linkngb iteration 12: need to repeat for 0000030393 particles. (took 0.015944 sec)
find linkngb iteration 13: need to repeat for 0000000644 particles. (took 0.00852084 sec)
find linkngb iteration 14: need to repeat for 0000000139 particles. (took 0.000660181 sec)
find linkngb iteration 15: need to repeat for 0000000023 particles. (took 0.000440836 sec)
find linkngb iteration 16: need to repeat for 0000000003 particles. (took 0.000371933 sec)
find_linkngb() took 1.83417 sec
Start finding nearest two (22165 particles on task=0)
find_nearesttwo() took 0.355201 sec (presently allocated=2659.83 MB)
parallel sort of densities done. took 0.05265 sec
building distributed linked list. (presently allocated 2659.61 MB)
identification of primary candidates took 157.863 sec
adding background as candidate took 0.160418 sec
establishing of rank order took 46.2502 sec  (p=5688434, grouplen=5688434) presently allocated 2659.61 MB

total number of subhalo candidates=22847

number of subhalo candidates that can be done independently=20546.
(Largest size is 1638, finding them took 0.00643706 sec)
particles are marked (took 28.5056)
independent subhalos are assembled on individual CPUs for unbinding (0.165842 sec, (presently allocated=2659.61 MB)
unbinding of independent ones took 0.043437 sec
particles have returned to their original processor (0.22833 sec, presently allocated 2659.61 MB)

number of subhalo candidates that can be done independently=2115.
(Largest size is 25931, finding them took 0.890959 sec)
particles are marked (took 19.3199)
independent subhalos are assembled on individual CPUs for unbinding (0.164969 sec, (presently allocated=2659.61 MB)
unbinding of independent ones took 0.740475 sec
particles have returned to their original processor (0.230731 sec, presently allocated 2659.61 MB)

number of subhalo candidates that can be done independently=162.
(Largest size is 46514, finding them took 0.773863 sec)
particles are marked (took 15.323)
independent subhalos are assembled on individual CPUs for unbinding (0.16481 sec, (presently allocated=2659.61 MB)
unbinding of independent ones took 1.07321 sec
particles have returned to their original processor (0.235912 sec, presently allocated 2659.61 MB)

number of subhalo candidates that can be done independently=19.
(Largest size is 419887, finding them took 0.582512 sec)
particles are marked (took 14.4154)
independent subhalos are assembled on individual CPUs for unbinding (0.170224 sec, (presently allocated=2659.61 MB)
unbinding of independent ones took 2.35373 sec
particles have returned to their original processor (0.247181 sec, presently allocated 2659.61 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 419887, finding them took 0.472704 sec)
particles are marked (took 11.6445)
independent subhalos are assembled on individual CPUs for unbinding (0.153538 sec, (presently allocated=2659.61 MB)
unbinding of independent ones took 2.09626 sec
particles have returned to their original processor (0.224705 sec, presently allocated 2659.61 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 419887, finding them took 0.501306 sec)
too few, I do the rest of 4 collectively

collective unbinding of nr=0 (4) of length=377170 ... maximum alloacted 2659.7 MB
took 7.65884 sec
collective unbinding of nr=1 (4) of length=921895 ... maximum alloacted 2659.7 MB
took 14.7857 sec
collective unbinding of nr=2 (4) of length=419887 ... maximum alloacted 2659.7 MB
took 7.7499 sec
collective unbinding of nr=3 (4) of length=5688434 ... maximum alloacted 2659.7 MB
took 109.925 sec

the collective unbinding of remaining halos took 150.176 sec

found 2230 bound substructures in FoF group of length 5688434
determination of parent subhalo took 0.039427 sec (presently allocated 2659.7 MB)
determining substructure properties took 138.556 sec (presently allocated 2659.7 MB)

collectively doing halo 4, num=14
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2150.73 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2210.28 MB)
Before=144537
After=167553
NTopleaves= 146609  NTopnodes=167553 (space for 244687)
gravity work-load balance=1.00054   memory-balance=1.00054   SPH work-load balance=0
iter=0 exchange of 0002866003 particles (ret=0)
domain decomposition done. (took 0.914895 sec)
Freed 3.53091 MByte in top-level domain structure
coldomain_Decomposition() took 1.34147 sec  (presently allocated=2657.63 MB)
force_treebuild() took 1.69202 sec (presently allocated=2657.63 MB)
Start find_linkngb (11215 particles on task=0)
find linkngb iteration 1: need to repeat for 0002871321 particles. (took 0.205569 sec)
find linkngb iteration 2: need to repeat for 0002820679 particles. (took 0.129629 sec)
find linkngb iteration 3: need to repeat for 0002704485 particles. (took 0.0927861 sec)
find linkngb iteration 4: need to repeat for 0002426868 particles. (took 0.104181 sec)
find linkngb iteration 5: need to repeat for 0002037304 particles. (took 0.0932391 sec)
find linkngb iteration 6: need to repeat for 0001483775 particles. (took 0.0793562 sec)
find linkngb iteration 7: need to repeat for 0000935763 particles. (took 0.060096 sec)
find linkngb iteration 8: need to repeat for 0000533402 particles. (took 0.042645 sec)
find linkngb iteration 9: need to repeat for 0000285675 particles. (took 0.029341 sec)
find linkngb iteration 10: need to repeat for 0000148490 particles. (took 0.0198231 sec)
find linkngb iteration 11: need to repeat for 0000075487 particles. (took 0.0150959 sec)
find linkngb iteration 12: need to repeat for 0000016635 particles. (took 0.0115621 sec)
find linkngb iteration 13: need to repeat for 0000000488 particles. (took 0.00718498 sec)
find linkngb iteration 14: need to repeat for 0000000114 particles. (took 0.000557184 sec)
find linkngb iteration 15: need to repeat for 0000000024 particles. (took 0.000410795 sec)
find linkngb iteration 16: need to repeat for 0000000006 particles. (took 0.000352859 sec)
find linkngb iteration 17: need to repeat for 0000000003 particles. (took 0.000329018 sec)
find_linkngb() took 0.893004 sec
Start finding nearest two (11215 particles on task=0)
find_nearesttwo() took 0.182617 sec (presently allocated=2658.49 MB)
parallel sort of densities done. took 0.0435441 sec
building distributed linked list. (presently allocated 2658.38 MB)
identification of primary candidates took 81.3418 sec
adding background as candidate took 0.157584 sec
establishing of rank order took 24.5543 sec  (p=2876902, grouplen=2876902) presently allocated 2658.38 MB

total number of subhalo candidates=11480

number of subhalo candidates that can be done independently=10382.
(Largest size is 2464, finding them took 0.00347996 sec)
particles are marked (took 14.8788)
independent subhalos are assembled on individual CPUs for unbinding (0.155272 sec, (presently allocated=2658.38 MB)
unbinding of independent ones took 0.048974 sec
particles have returned to their original processor (0.219324 sec, presently allocated 2658.38 MB)

number of subhalo candidates that can be done independently=1014.
(Largest size is 19042, finding them took 0.874844 sec)
particles are marked (took 9.67397)
independent subhalos are assembled on individual CPUs for unbinding (0.161025 sec, (presently allocated=2658.38 MB)
unbinding of independent ones took 0.509484 sec
particles have returned to their original processor (0.23326 sec, presently allocated 2658.38 MB)

number of subhalo candidates that can be done independently=70.
(Largest size is 50888, finding them took 1.03002 sec)
particles are marked (took 8.90228)
independent subhalos are assembled on individual CPUs for unbinding (0.160889 sec, (presently allocated=2658.38 MB)
unbinding of independent ones took 1.10583 sec
particles have returned to their original processor (0.231569 sec, presently allocated 2658.38 MB)

number of subhalo candidates that can be done independently=11.
(Largest size is 678490, finding them took 0.469042 sec)
particles are marked (took 7.53804)
independent subhalos are assembled on individual CPUs for unbinding (0.161488 sec, (presently allocated=2658.38 MB)
unbinding of independent ones took 2.21488 sec
particles have returned to their original processor (0.237611 sec, presently allocated 2658.38 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 678490, finding them took 0.469608 sec)
particles are marked (took 5.42915)
independent subhalos are assembled on individual CPUs for unbinding (0.151569 sec, (presently allocated=2658.38 MB)
unbinding of independent ones took 0.120254 sec
particles have returned to their original processor (0.218982 sec, presently allocated 2658.38 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 678490, finding them took 0.495049 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=678490 ... maximum alloacted 2658.42 MB
took 12.8485 sec
collective unbinding of nr=1 (2) of length=2876902 ... maximum alloacted 2658.42 MB
took 58.1132 sec

the collective unbinding of remaining halos took 75.9586 sec

found 1211 bound substructures in FoF group of length 2876902
determination of parent subhalo took 0.032886 sec (presently allocated 2658.42 MB)
determining substructure properties took 71.2408 sec (presently allocated 2658.42 MB)
processing of collective halos took 2302.25 sec
sort of local particles()() took 0.574193 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 458.662 sec

Task 250: testing particles ...
Task 232: testing particles ...
Task 1: testing particles ...
Task 238: testing particles ...
Task 198: testing particles ...
Task 248: testing particles ...
Task 245: testing particles ...
Task 212: testing particles ...
Task 211: testing particles ...
unsorting of local particles()() took 0.48004 sec
Task 0: testing particles ...
Task 157: testing particles ...
Task 194: testing particles ...
Task 188: testing particles ...
Task 164: testing particles ...
Task 205: testing particles ...
Task 228: testing particles ...
Task 186: testing particles ...
Task 224: testing particles ...
Task 2: testing particles ...
Task 116: testing particles ...
Task 242: testing particles ...
Task 168: testing particles ...
Task 222: testing particles ...
Task 252: testing particles ...
Task 167: testing particles ...
Task 231: testing particles ...
Task 203: testing particles ...
Task 3: testing particles ...
Task 221: testing particles ...
Task 237: testing particles ...
Task 141: testing particles ...
Task 189: testing particles ...
Task 235: testing particles ...
Task 170: testing particles ...
Task 255: testing particles ...
Task 174: testing particles ...
Task 201: testing particles ...
Task 240: testing particles ...
Task 218: testing particles ...
Task 243: testing particles ...
Task 148: testing particles ...
Task 144: testing particles ...
Task 196: testing particles ...
Task 102: testing particles ...
Task 241: testing particles ...
Task 220: testing particles ...
Task 166: testing particles ...
Task 114: testing particles ...
Task 108: testing particles ...
Task 217: testing particles ...
Task 204: testing particles ...
Task 197: testing particles ...
Task 134: testing particles ...
Task 190: testing particles ...
Task 227: testing particles ...
Task 159: testing particles ...
Task 124: testing particles ...
Task 230: testing particles ...
Task 206: testing particles ...
Task 149: testing particles ...
Task 234: testing particles ...
Task 113: testing particles ...
Task 173: testing particles ...
Task 236: testing particles ...
Task 210: testing particles ...
Task 156: testing particles ...
Task 133: testing particles ...
Task 185: testing particles ...
Task 85: testing particles ...
Task 181: testing particles ...
Task 191: testing particles ...
Task 179: testing particles ...
Task 213: testing particles ...
Task 251: testing particles ...
Task 142: testing particles ...
Task 178: testing particles ...
Task 62: testing particles ...
Task 214: testing particles ...
Task 140: testing particles ...
Task 125: testing particles ...
Task 153: testing particles ...
Task 199: testing particles ...
Task 106: testing particles ...
Task 244: testing particles ...
Task 208: testing particles ...
Task 187: testing particles ...
Task 180: testing particles ...
Task 158: testing particles ...
Task 195: testing particles ...
Task 215: testing particles ...
Task 165: testing particles ...
Task 177: testing particles ...
Task 123: testing particles ...
Task 81: testing particles ...
Task 104: testing particles ...
Task 249: testing particles ...
Task 121: testing particles ...
Task 99: testing particles ...
Task 207: testing particles ...
Task 182: testing particles ...
Task 239: testing particles ...
Task 151: testing particles ...
Task 77: testing particles ...
Task 84: testing particles ...
Task 128: testing particles ...
Task 100: testing particles ...
Task 105: testing particles ...
Task 87: testing particles ...
Task 88: testing particles ...
Task 146: testing particles ...
Task 225: testing particles ...
Task 136: testing particles ...
Task 253: testing particles ...
Task 122: testing particles ...
Task 78: testing particles ...
Task 92: testing particles ...
Task 223: testing particles ...
Task 171: testing particles ...
Task 115: testing particles ...
Task 98: testing particles ...
Task 117: testing particles ...
Task 161: testing particles ...
Task 169: testing particles ...
Task 233: testing particles ...
Task 111: testing particles ...
Task 202: testing particles ...
Task 143: testing particles ...
Task 129: testing particles ...
Task 109: testing particles ...
Task 120: testing particles ...
Task 95: testing particles ...
Task 130: testing particles ...
Task 67: testing particles ...
Task 131: testing particles ...
Task 101: testing particles ...
Task 247: testing particles ...
Task 119: testing particles ...
Task 229: testing particles ...
Task 216: testing particles ...
Task 132: testing particles ...
Task 254: testing particles ...
Task 209: testing particles ...
Task 219: testing particles ...
Task 150: testing particles ...
Task 80: testing particles ...
Task 112: testing particles ...
Task 56: testing particles ...
Task 126: testing particles ...
Task 193: testing particles ...
Task 90: testing particles ...
Task 246: testing particles ...
Task 162: testing particles ...
Task 172: testing particles ...
Task 135: testing particles ...
Task 107: testing particles ...
Task 152: testing particles ...
Task 183: testing particles ...
Task 54: testing particles ...
Task 200: testing particles ...
Task 184: testing particles ...
Task 110: testing particles ...
Task 145: testing particles ...
Task 75: testing particles ...
Task 68: testing particles ...
Task 163: testing particles ...
Task 64: testing particles ...
Task 226: testing particles ...
Task 192: testing particles ...
Task 137: testing particles ...
Task 147: testing particles ...
Task 127: testing particles ...
Task 86: testing particles ...
Task 154: testing particles ...
Task 52: testing particles ...
Task 160: testing particles ...
Task 51: testing particles ...
Task 76: testing particles ...
Task 96: testing particles ...
Task 118: testing particles ...
Task 176: testing particles ...
Task 103: testing particles ...
Task 66: testing particles ...
Task 175: testing particles ...
Task 82: testing particles ...
Task 70: testing particles ...
Task 58: testing particles ...
Task 139: testing particles ...
Task 91: testing particles ...
Task 89: testing particles ...
Task 73: testing particles ...
Task 63: testing particles ...
Task 155: testing particles ...
Task 60: testing particles ...
Task 71: testing particles ...
Task 74: testing particles ...
Task 65: testing particles ...
Task 79: testing particles ...
Task 61: testing particles ...
Task 50: testing particles ...
Task 94: testing particles ...
Task 43: testing particles ...
Task 59: testing particles ...
Task 57: testing particles ...
Task 83: testing particles ...
Task 93: testing particles ...
Task 138: testing particles ...
Task 45: testing particles ...
Task 72: testing particles ...
Task 53: testing particles ...
Task 97: testing particles ...
Task 37: testing particles ...
Task 49: testing particles ...
Task 42: testing particles ...
Task 55: testing particles ...
Task 69: testing particles ...
Task 48: testing particles ...
Task 44: testing particles ...
Task 29: testing particles ...
Task 35: testing particles ...
Task 47: testing particles ...
Task 32: testing particles ...
Task 41: testing particles ...
Task 31: testing particles ...
Task 38: testing particles ...
Task 46: testing particles ...
Task 25: testing particles ...
Task 22: testing particles ...
Task 34: testing particles ...
Task 33: testing particles ...
Task 28: testing particles ...
Task 26: testing particles ...
Task 21: testing particles ...
Task 18: testing particles ...
Task 27: testing particles ...
Task 24: testing particles ...
Task 23: testing particles ...
Task 36: testing particles ...
Task 20: testing particles ...
Task 40: testing particles ...
Task 39: testing particles ...
Task 19: testing particles ...
Task 30: testing particles ...
Task 15: testing particles ...
Task 14: testing particles ...
Task 16: testing particles ...
Task 17: testing particles ...
Task 12: testing particles ...
Task 7: testing particles ...
Task 13: testing particles ...
Task 11: testing particles ...
Task 10: testing particles ...
Task 8: testing particles ...
Task 6: testing particles ...
Task 9: testing particles ...
Task 5: testing particles ...
Task 4: testing particles ...
subfind_exchange() (for return to original CPU)  took 3.38361 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2150.73 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2210.28 MB)
Before=188257
After=206153
NTopleaves= 180384  NTopnodes=206153 (space for 244687)
gravity work-load balance=1.00036   memory-balance=1.00036   SPH work-load balance=0
iter=0 exchange of 0273013728 particles (ret=0)
domain decomposition done. (took 3.91639 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.76395 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000178621 particles. (took 0.029716 sec)
SO iteration 2: need to repeat for 0000178621 particles. (took 0.0237811 sec)
SO iteration 3: need to repeat for 0000178621 particles. (took 0.02424 sec)
SO iteration 4: need to repeat for 0000178621 particles. (took 0.0260811 sec)
SO iteration 5: need to repeat for 0000178621 particles. (took 0.0243931 sec)
SO iteration 6: need to repeat for 0000178621 particles. (took 0.024457 sec)
SO iteration 7: need to repeat for 0000178621 particles. (took 0.0242541 sec)
SO iteration 8: need to repeat for 0000178621 particles. (took 0.0246401 sec)
SO iteration 9: need to repeat for 0000178621 particles. (took 0.0242772 sec)
SO iteration 10: need to repeat for 0000178621 particles. (took 0.0384519 sec)
SO iteration 11: need to repeat for 0000178621 particles. (took 0.025805 sec)
SO iteration 12: need to repeat for 0000178621 particles. (took 0.035054 sec)
SO iteration 13: need to repeat for 0000178621 particles. (took 0.0447428 sec)
SO iteration 14: need to repeat for 0000178621 particles. (took 0.0327408 sec)
SO iteration 15: need to repeat for 0000178204 particles. (took 0.0245352 sec)
SO iteration 16: need to repeat for 0000000764 particles. (took 0.0243192 sec)
SO iteration 17: need to repeat for 0000000051 particles. (took 0.0011549 sec)
SO iteration 1: need to repeat for 0000178621 particles. (took 0.0245121 sec)
SO iteration 2: need to repeat for 0000178621 particles. (took 0.021697 sec)
SO iteration 3: need to repeat for 0000178621 particles. (took 0.022881 sec)
SO iteration 4: need to repeat for 0000178621 particles. (took 0.0228751 sec)
SO iteration 5: need to repeat for 0000178621 particles. (took 0.0224309 sec)
SO iteration 6: need to repeat for 0000178621 particles. (took 0.0224521 sec)
SO iteration 7: need to repeat for 0000178621 particles. (took 0.02248 sec)
SO iteration 8: need to repeat for 0000178621 particles. (took 0.0223582 sec)
SO iteration 9: need to repeat for 0000178621 particles. (took 0.0224001 sec)
SO iteration 10: need to repeat for 0000178621 particles. (took 0.022475 sec)
SO iteration 11: need to repeat for 0000178621 particles. (took 0.0225091 sec)
SO iteration 12: need to repeat for 0000178621 particles. (took 0.022398 sec)
SO iteration 13: need to repeat for 0000178621 particles. (took 0.022372 sec)
SO iteration 14: need to repeat for 0000178621 particles. (took 0.0224819 sec)
SO iteration 15: need to repeat for 0000178521 particles. (took 0.023664 sec)
SO iteration 16: need to repeat for 0000037035 particles. (took 0.024241 sec)
SO iteration 17: need to repeat for 0000000468 particles. (took 0.00951099 sec)
SO iteration 18: need to repeat for 0000000047 particles. (took 0.000887871 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000530005 sec)
SO iteration 1: need to repeat for 0000178621 particles. (took 0.0244341 sec)
SO iteration 2: need to repeat for 0000178621 particles. (took 0.0215609 sec)
SO iteration 3: need to repeat for 0000178621 particles. (took 0.019299 sec)
SO iteration 4: need to repeat for 0000178621 particles. (took 0.020366 sec)
SO iteration 5: need to repeat for 0000178621 particles. (took 0.020112 sec)
SO iteration 6: need to repeat for 0000178621 particles. (took 0.0202231 sec)
SO iteration 7: need to repeat for 0000178621 particles. (took 0.0200551 sec)
SO iteration 8: need to repeat for 0000178621 particles. (took 0.020117 sec)
SO iteration 9: need to repeat for 0000178621 particles. (took 0.0201061 sec)
SO iteration 10: need to repeat for 0000178621 particles. (took 0.0200789 sec)
SO iteration 11: need to repeat for 0000178621 particles. (took 0.020025 sec)
SO iteration 12: need to repeat for 0000178621 particles. (took 0.020154 sec)
SO iteration 13: need to repeat for 0000178621 particles. (took 0.0200889 sec)
SO iteration 14: need to repeat for 0000178621 particles. (took 0.0204289 sec)
SO iteration 15: need to repeat for 0000178617 particles. (took 0.0200689 sec)
SO iteration 16: need to repeat for 0000178598 particles. (took 0.020215 sec)
SO iteration 17: need to repeat for 0000070730 particles. (took 0.020124 sec)
SO iteration 18: need to repeat for 0000001509 particles. (took 0.011688 sec)
SO iteration 19: need to repeat for 0000000104 particles. (took 0.00127792 sec)
SO iteration 20: need to repeat for 0000000005 particles. (took 0.000603914 sec)
SO iteration 21: need to repeat for 0000000001 particles. (took 0.000592947 sec)
SO iteration 1: need to repeat for 0000178621 particles. (took 0.024631 sec)
SO iteration 2: need to repeat for 0000178621 particles. (took 0.0222869 sec)
SO iteration 3: need to repeat for 0000178621 particles. (took 0.023711 sec)
SO iteration 4: need to repeat for 0000178621 particles. (took 0.0241191 sec)
SO iteration 5: need to repeat for 0000178621 particles. (took 0.0249841 sec)
SO iteration 6: need to repeat for 0000178621 particles. (took 0.0242341 sec)
SO iteration 7: need to repeat for 0000178621 particles. (took 0.024184 sec)
SO iteration 8: need to repeat for 0000178621 particles. (took 0.024209 sec)
SO iteration 9: need to repeat for 0000178621 particles. (took 0.0257289 sec)
SO iteration 10: need to repeat for 0000178621 particles. (took 0.0243051 sec)
SO iteration 11: need to repeat for 0000178621 particles. (took 0.0243559 sec)
SO iteration 12: need to repeat for 0000178621 particles. (took 0.024297 sec)
SO iteration 13: need to repeat for 0000178621 particles. (took 0.024271 sec)
SO iteration 14: need to repeat for 0000178621 particles. (took 0.0242651 sec)
SO iteration 15: need to repeat for 0000178259 particles. (took 0.0241661 sec)
SO iteration 16: need to repeat for 0000001069 particles. (took 0.0239038 sec)
SO iteration 17: need to repeat for 0000000058 particles. (took 0.00124192 sec)
SO iteration 18: need to repeat for 0000000002 particles. (took 0.000623941 sec)
SO iteration 1: need to repeat for 0000178621 particles. (took 0.024524 sec)
SO iteration 2: need to repeat for 0000178621 particles. (took 0.0218689 sec)
SO iteration 3: need to repeat for 0000178621 particles. (took 0.023488 sec)
SO iteration 4: need to repeat for 0000178621 particles. (took 0.023577 sec)
SO iteration 5: need to repeat for 0000178621 particles. (took 0.0232811 sec)
SO iteration 6: need to repeat for 0000178621 particles. (took 0.0234661 sec)
SO iteration 7: need to repeat for 0000178621 particles. (took 0.023293 sec)
SO iteration 8: need to repeat for 0000178621 particles. (took 0.023422 sec)
SO iteration 9: need to repeat for 0000178621 particles. (took 0.0234401 sec)
SO iteration 10: need to repeat for 0000178621 particles. (took 0.0234401 sec)
SO iteration 11: need to repeat for 0000178621 particles. (took 0.0234258 sec)
SO iteration 12: need to repeat for 0000178621 particles. (took 0.023387 sec)
SO iteration 13: need to repeat for 0000178621 particles. (took 0.0233769 sec)
SO iteration 14: need to repeat for 0000178621 particles. (took 0.023504 sec)
SO iteration 15: need to repeat for 0000178398 particles. (took 0.0233889 sec)
SO iteration 16: need to repeat for 0000004062 particles. (took 0.0232959 sec)
SO iteration 17: need to repeat for 0000000137 particles. (took 0.00240922 sec)
SO iteration 18: need to repeat for 0000000008 particles. (took 0.000699043 sec)
SO iteration 1: need to repeat for 0000178621 particles. (took 0.0244651 sec)
SO iteration 2: need to repeat for 0000178621 particles. (took 0.0215919 sec)
SO iteration 3: need to repeat for 0000178621 particles. (took 0.022191 sec)
SO iteration 4: need to repeat for 0000178621 particles. (took 0.0219338 sec)
SO iteration 5: need to repeat for 0000178621 particles. (took 0.0216019 sec)
SO iteration 6: need to repeat for 0000178621 particles. (took 0.021781 sec)
SO iteration 7: need to repeat for 0000178621 particles. (took 0.0217309 sec)
SO iteration 8: need to repeat for 0000178621 particles. (took 0.0217221 sec)
SO iteration 9: need to repeat for 0000178621 particles. (took 0.021884 sec)
SO iteration 10: need to repeat for 0000178621 particles. (took 0.0217421 sec)
SO iteration 11: need to repeat for 0000178621 particles. (took 0.0216949 sec)
SO iteration 12: need to repeat for 0000178621 particles. (took 0.0216801 sec)
SO iteration 13: need to repeat for 0000178621 particles. (took 0.0219259 sec)
SO iteration 14: need to repeat for 0000178621 particles. (took 0.0234489 sec)
SO iteration 15: need to repeat for 0000178572 particles. (took 0.0216908 sec)
SO iteration 16: need to repeat for 0000164472 particles. (took 0.0224249 sec)
SO iteration 17: need to repeat for 0000001465 particles. (took 0.0206699 sec)
SO iteration 18: need to repeat for 0000000117 particles. (took 0.00149608 sec)
SO iteration 19: need to repeat for 0000000003 particles. (took 0.00087595 sec)
SO iteration 1: need to repeat for 0000178621 particles. (took 0.025238 sec)
SO iteration 2: need to repeat for 0000178621 particles. (took 0.0215149 sec)
SO iteration 3: need to repeat for 0000178621 particles. (took 0.0194192 sec)
SO iteration 4: need to repeat for 0000178621 particles. (took 0.0199268 sec)
SO iteration 5: need to repeat for 0000178621 particles. (took 0.0205019 sec)
SO iteration 6: need to repeat for 0000178621 particles. (took 0.0196102 sec)
SO iteration 7: need to repeat for 0000178621 particles. (took 0.0194039 sec)
SO iteration 8: need to repeat for 0000178621 particles. (took 0.0196469 sec)
SO iteration 9: need to repeat for 0000178621 particles. (took 0.0194111 sec)
SO iteration 10: need to repeat for 0000178621 particles. (took 0.0193608 sec)
SO iteration 11: need to repeat for 0000178621 particles. (took 0.0207329 sec)
SO iteration 12: need to repeat for 0000178621 particles. (took 0.019511 sec)
SO iteration 13: need to repeat for 0000178621 particles. (took 0.0195479 sec)
SO iteration 14: need to repeat for 0000178621 particles. (took 0.0194368 sec)
SO iteration 15: need to repeat for 0000178619 particles. (took 0.019527 sec)
SO iteration 16: need to repeat for 0000178603 particles. (took 0.0193329 sec)
SO iteration 17: need to repeat for 0000158870 particles. (took 0.019455 sec)
SO iteration 18: need to repeat for 0000006338 particles. (took 0.018481 sec)
SO iteration 19: need to repeat for 0000000177 particles. (took 0.00281692 sec)
SO iteration 20: need to repeat for 0000000013 particles. (took 0.000653982 sec)
SO iteration 21: need to repeat for 0000000001 particles. (took 0.000519037 sec)
determining spherical overdensity masses took 2.70488 sec
finding spherical overdensity particles took 0.633744 sec
determining contamination of halos took 0.2294 sec
Global sort of Groups took 0.1659 sec
Global sort of SubGroups took 0.6498 sec
Global sort of IDs took 0.508158 sec
Writing block 0 (GLEN), n=836, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3344d
Writing block 1 (GOFF), n=836, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3344d
Writing block 2 (MTOT), n=836, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3344d
Writing block 3 (GPOS), n=836, ptype=0, dtype=1, ndim=3, bpb=4 bytes=10032d
Writing block 4 (MMEA), n=836, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3344d
Writing block 5 (RMEA), n=836, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3344d
Writing block 6 (MCRI), n=836, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3344d
Writing block 7 (RCRI), n=836, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3344d
Writing block 8 (MTOP), n=836, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3344d
Writing block 9 (RTOP), n=836, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3344d
Writing block 17 (NCON), n=836, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3344d
Writing block 18 (MCON), n=836, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3344d
Writing block 22 (NSUB), n=836, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3344d
Writing block 23 (FSUB), n=836, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3344d
Writing block 24 (SLEN), n=3472, ptype=1, dtype=0, ndim=1, bpb=4 bytes=13888d
Writing block 25 (SOFF), n=3472, ptype=1, dtype=0, ndim=1, bpb=4 bytes=13888d
Writing block 27 (MSUB), n=3472, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 28 (SPOS), n=3472, ptype=1, dtype=1, ndim=3, bpb=4 bytes=41664d
Writing block 29 (SVEL), n=3472, ptype=1, dtype=1, ndim=3, bpb=4 bytes=41664d
Writing block 30 (SCM ), n=3472, ptype=1, dtype=1, ndim=3, bpb=4 bytes=41664d
Writing block 33 (VMAX), n=3472, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 34 (RMAX), n=3472, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 35 (RHMS), n=3472, ptype=1, dtype=1, ndim=6, bpb=4 bytes=83328d
Writing block 36 (MTRH), n=3472, ptype=1, dtype=1, ndim=6, bpb=4 bytes=83328d
Writing block 37 (MBID), n=3472, ptype=1, dtype=2, ndim=1, bpb=8 bytes=27776d
Writing block 38 (GRNR), n=3472, ptype=1, dtype=0, ndim=1, bpb=4 bytes=13888d
Writing block 39 (SUBN), n=3472, ptype=1, dtype=0, ndim=1, bpb=4 bytes=13888d
Writing block 40 (SMST), n=3472, ptype=1, dtype=1, ndim=6, bpb=4 bytes=83328d
Writing block 53 (PID ), n=445356, ptype=2, dtype=2, ndim=1, bpb=8 bytes=3562848d
Writing block 54 (SLEN), n=3472, ptype=1, dtype=0, ndim=6, bpb=4 bytes=83328d
Writing block 55 (STEN), n=3472, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 56 (SKEN), n=3472, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 57 (SUEN), n=3472, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 58 (SUIT), n=3472, ptype=1, dtype=1, ndim=9, bpb=4 bytes=124992d
Writing block 59 (BHMA), n=3472, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 60 (BHMD), n=3472, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 61 (SVD ), n=3472, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 62 (SVDH), n=3472, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 63 (HMPR), n=3472, ptype=1, dtype=1, ndim=6, bpb=4 bytes=83328d
Writing block 64 (SSFR), n=3472, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 65 (SSA ), n=3472, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 66 (SSBZ), n=3472, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 67 (SSIM), n=3472, ptype=1, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 68 (SSPI), n=3472, ptype=4, dtype=1, ndim=3, bpb=4 bytes=41664d
Writing block 69 (GSPI), n=3472, ptype=1, dtype=1, ndim=3, bpb=4 bytes=41664d
Writing block 70 (FSPI), n=3472, ptype=5, dtype=1, ndim=3, bpb=4 bytes=41664d
Writing block 71 (SFM ), n=3472, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 72 (SFMT), n=3472, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 73 (SFME), n=3472, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 74 (SFAE), n=3472, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 75 (SFKE), n=3472, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 76 (SFTE), n=3472, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 77 (SMWP), n=3472, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 78 (SMM ), n=3472, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 79 (SMMS), n=3472, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 80 (SFZ ), n=3472, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 81 (SFZS), n=3472, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 82 (SSIA), n=3472, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 83 (SIAS), n=3472, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 84 (SMET), n=3472, ptype=5, dtype=1, ndim=9, bpb=4 bytes=124992d
Writing block 85 (SMTS), n=3472, ptype=5, dtype=1, ndim=9, bpb=4 bytes=124992d
Writing block 86 (MF1 ), n=3472, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 87 (MeF1), n=3472, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 88 (MF  ), n=3472, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 89 (MeF2), n=3472, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 90 (MFA ), n=3472, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 91 (MeFA), n=3472, ptype=5, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 92 (NSPI), n=3472, ptype=6, dtype=1, ndim=3, bpb=4 bytes=41664d
Writing block 93 (NFM ), n=3472, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 94 (NFMT), n=3472, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 95 (NFME), n=3472, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 96 (NFAE), n=3472, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 97 (NFKE), n=3472, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 98 (NFTE), n=3472, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 99 (SMWP), n=3472, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 100 (SMM ), n=3472, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 101 (SMMS), n=3472, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 102 (SSIA), n=3472, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 103 (SIAS), n=3472, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 104 (SMET), n=3472, ptype=6, dtype=1, ndim=9, bpb=4 bytes=124992d
Writing block 105 (SMTS), n=3472, ptype=6, dtype=1, ndim=9, bpb=4 bytes=124992d
Writing block 106 (MF1 ), n=3472, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 107 (MeF1), n=3472, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 108 (MF2 ), n=3472, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 109 (MeF2), n=3472, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 110 (MFA ), n=3472, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 111 (MeFA), n=3472, ptype=6, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 112 (SM  ), n=3472, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 113 (SFKE), n=3472, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 114 (SFAE), n=3472, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 115 (SMWP), n=3472, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 116 (SMM ), n=3472, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 117 (SMMS), n=3472, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 118 (SSIA), n=3472, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 119 (SIAS), n=3472, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 120 (SMET), n=3472, ptype=4, dtype=1, ndim=9, bpb=4 bytes=124992d
Writing block 121 (SMTS), n=3472, ptype=4, dtype=1, ndim=9, bpb=4 bytes=124992d
Writing block 122 (MF1 ), n=3472, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 123 (MeF1), n=3472, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 124 (MF2 ), n=3472, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 125 (MeF2), n=3472, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 126 (MFA ), n=3472, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 127 (MeFA), n=3472, ptype=4, dtype=1, ndim=1, bpb=4 bytes=13888d
Writing block 128 (MMe5), n=836, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3344d
Writing block 129 (RMe5), n=836, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3344d
Writing block 130 (MCr5), n=836, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3344d
Writing block 131 (RCr5), n=836, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3344d
Writing block 132 (MMe2), n=836, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3344d
Writing block 133 (RMe2), n=836, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3344d
Writing block 134 (MCr2), n=836, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3344d
Writing block 135 (RCr2), n=836, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3344d
Writing block 136 (MAPT), n=3472, ptype=7, dtype=1, ndim=60, bpb=4 bytes=833280d
Writing block 137 (SAPT), n=3472, ptype=8, dtype=1, ndim=10, bpb=4 bytes=138880d
Writing block 138 (VAPT), n=3472, ptype=9, dtype=1, ndim=10, bpb=4 bytes=138880d
Writing block 139 (BEGY), n=445356, ptype=2, dtype=1, ndim=1, bpb=4 bytes=1781424d
Subgroup catalogues saved. took = 7.29223 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 6.774201e-01
 eagle_ph_key_ort: type= 2 timed by volker 5.896497e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.926014e-02
 eagle_ph_key_ort: type= 4 timed by volker 4.926014e-02
 eagle_ph_key_ort: type= 5 timed by volker 4.926014e-02
 eagle_ph_key_ort: timing parallel sort = 7.946720e-01
 eagle_fetch_elements: we are using 1488772025 bytes of memory, FreeBytes= 1860965032

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 2175.25 Mbyte (on task=0), Smallest = 1320.19 Mbyte, Average = 1348.07 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0270    1203.0410  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5311    1227.5721  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8852    1268.4573  fof_fof()/fof.c/337
   0 2975 0             Group      1.0926    1269.5499  fof_fof()/fof.c/380
   0 2976 0          SubGroup    881.1817    2150.7316  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5139    2175.2454  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1757418 number of bytes = 562373760

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3594.85 Mbyte (on task=0), Smallest = 2739.94 Mbyte, Average = 2767.75 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0270    1203.0410  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5311    1227.5721  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8852    1268.4573  fof_fof()/fof.c/337
   0 2975 0             Group      1.0926    1269.5499  fof_fof()/fof.c/380
   0 2976 0          SubGroup    881.1817    2150.7316  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5139    2175.2454  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      6.7040    2181.9495  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      6.7040    2188.6535  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      6.7040    2195.3575  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    536.3214    2731.6789  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    536.3214    3268.0003  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    326.8518    3594.8521  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.430838e+00
 eagle_fetch_elements: we are using 1488772025 bytes of memory, FreeBytes= 1860965032
 eagle_fetch_elements: max_bytes= 504, max_elements= 1459580 number of bytes = 735628320
 eagle_ph_key_ort: timing parallel SphP exchange = 2.014875e-03
 eagle_fetch_elements: we are using 1488772025 bytes of memory, FreeBytes= 1860965032
 eagle_fetch_elements: max_bytes= 384, max_elements= 1908682 number of bytes = 732933888
 eagle_ph_key_ort: timing parallel MetP exchange = 4.608631e-04
 eagle_fetch_elements: we are using 1488772025 bytes of memory, FreeBytes= 1860965032
 eagle_fetch_elements: max_bytes= 256, max_elements= 2841167 number of bytes = 727338752
 eagle_ph_key_ort: timing parallel BHP exchange = 4.611015e-04
Sorting particle-data by peano-hilbert key took = 3.60776 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1488772025 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1757418 number of bytes= 562373760
 eagle_ph_restore: timing parallel P exchange = 2.366293e+00
 eagle_send_elements: we are using 1488772025 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1459580 number of bytes= 735628320
 eagle_ph_restore: timing parallel SphP exchange = 3.732920e-03
 eagle_send_elements: we are using 1488772025 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1908682 number of bytes= 732933888
 eagle_ph_restore: timing parallel MetP exchange = 9.100437e-04
 eagle_send_elements: we are using 1488772025 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 2841167 number of bytes= 727338752
 eagle_ph_restore: timing parallel BHP exchange = 7.138252e-04
Restoring original order after ph key sorting took = 2.38795 sec

finished writing particle file...

Finished with SUBFIND.  (total time=2915.48 sec)

Finished computing FoF groups.  (presently allocated=1203.04 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=182089
After=201961
NTopleaves= 176716  NTopnodes=201961 (space for 244687)
gravity work-load balance=1.00046   memory-balance=1.00046   SPH work-load balance=0
iter=0 exchange of 0272842936 particles (ret=0)
domain decomposition done. (took 3.8928 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.95584 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 16: endrun called with an error level of 124


task 16: endrun called with an error level of 124


task 32: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 32: endrun called with an error level of 124


task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
task 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 128: endrun called with an error level of 124


task 128: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 160: endrun called with an error level of 124


task 160: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
task 176: endrun called with an error level of 124


task 176: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
task 192: endrun called with an error level of 124


task 192: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


Finished FOF, total time doing fof/subfind = 2955.43 s
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
task 0: endrun called with an error level of 124


    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.94 Mb (on task=112), Smallest =   62646.46 Mb (on task=0), Average =   62686.71 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1885.61 Mb (on task=0), Smallest =    1798.12 Mb (on task=112), Average =    1845.36 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16339.42 Mb (on task=112), Average =   16351.69 Mb
AllocMem:	 Largest =    1885.61 Mb (on task=0), Smallest =    1798.12 Mb (on task=112), Average =    1845.36 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_015_z000p619/snap_015_z000p619.0.hdf5' on task=0 (contains 17549458 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  17323768  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     11290  (tot=     0000303834) masstab=0
Type 3 (bulge):   214400  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.620589

Setting next time for line of sight file to Time_next= 0.620282

Setting next time for snipshot file to Time_next= 0.625222

Setting next time for fof output to Time_next= 0.625222
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.1664 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=189897
After=198953
NTopleaves= 174084  NTopnodes=198953 (space for 244687)
gravity work-load balance=1.00049   memory-balance=1.00049   SPH work-load balance=0
iter=0 exchange of 0273294341 particles (ret=0)
domain decomposition done. (took 10.1322 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.09354 MByte in top-level domain structure

Allocated 503.298 MByte for BH-tree, and 0.664078 Mbyte for top-leaves.  (presently allocted 1706.84 MB)

Begin Ngb-tree construction.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1753.02 Mbyte (on task=178), Smallest = 1752.95 Mbyte, Average = 1753.01 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 178 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
 178 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
 178 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
 178 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
 178 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
 178 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
 178 2972 0          TopNodes      9.8663    1202.8813  domain_allocate()/domain.c/570
 178 2973 0   DomainNodeIndex      0.6641    1203.5454  force_treeallocate()/forcetree.c/4800
 178 2974 0        Nodes_base    258.5087    1462.0541  force_treeallocate()/forcetree.c/4803
 178 2975 0     Extnodes_base    215.4239    1677.4780  force_treeallocate()/forcetree.c/4811
 178 2976 0          Nextnode     15.0622    1692.5401  force_treeallocate()/forcetree.c/4820
 178 2977 0            Father     14.3032    1706.8433  force_treeallocate()/forcetree.c/4827
 178 2978 0           Ngblist      4.0887    1710.9320  density()/density.c/690
 178 2979 0              Left      8.1773    1719.1093  density()/density.c/692
 178 2980 0             Right      8.1773    1727.2866  density()/density.c/693
 178 2981 0    DataIndexTable      7.0175    1734.3041  density()/density.c/738
 178 2982 0      DataNodeList     18.7134    1753.0176  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.615.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.695.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.84 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=182113
After=201945
NTopleaves= 176702  NTopnodes=201945 (space for 244687)
gravity work-load balance=1.00055   memory-balance=1.00055   SPH work-load balance=0
iter=0 exchange of 0272998772 particles (ret=0)
domain decomposition done. (took 3.82617 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.95657 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1203.03 MB)
Tree construction.

Start linking particles (presently allocated=1756.58 MB)
links on local processor done (took 6.66776 sec).
Marked=0053635034 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1858.19 MB) 
have done 0000997610 cross links (processed 0053635034, took 3.30139 sec)
have done 0000424875 cross links (processed 0040234999, took 3.14952 sec)
have done 0000293626 cross links (processed 0033022403, took 3.02111 sec)
have done 0000187980 cross links (processed 0022204188, took 2.54759 sec)
have done 0000120938 cross links (processed 0014491918, took 2.49866 sec)
have done 0000075134 cross links (processed 0008240877, took 1.84634 sec)
have done 0000046787 cross links (processed 0004336738, took 1.54759 sec)
have done 0000028008 cross links (processed 0001867444, took 0.672189 sec)
have done 0000019057 cross links (processed 0001619149, took 0.524742 sec)
have done 0000014141 cross links (processed 0001900170, took 0.757653 sec)
have done 0000009944 cross links (processed 0001610819, took 0.689059 sec)
have done 0000006207 cross links (processed 0000855014, took 1.00799 sec)
have done 0000003393 cross links (processed 0000112869, took 0.149893 sec)
have done 0000002472 cross links (processed 0000103573, took 0.146971 sec)
have done 0000002713 cross links (processed 0000252843, took 0.124151 sec)
have done 0000002261 cross links (processed 0000422238, took 0.484048 sec)
have done 0000001515 cross links (processed 0000101511, took 0.112314 sec)
have done 0000000515 cross links (processed 0000012381, took 0.056881 sec)
have done 0000000149 cross links (processed 0000002242, took 0.0462019 sec)
have done 0000000057 cross links (processed 0000000653, took 0.046653 sec)
have done 0000000021 cross links (processed 0000000250, took 0.0459981 sec)
have done 0000000007 cross links (processed 0000000081, took 0.045861 sec)
have done 0000000004 cross links (processed 0000000031, took 0.046484 sec)
have done 0000000000 cross links (processed 0000000016, took 0.047508 sec)
Local groups found.

group finding took = 29.7025 sec
Start finding nearest dm-particle (presently allocated=1756.58 MB)
still finding nearest... (presently allocated=1846.04 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.114371 sec
compiling local group data and catalogue took = 0.643348 sec

Total number of groups with at least 32 particles: 211122
Largest group has 8244516 particles.
Total number of particles in groups: 0129945647

group properties are now allocated.. (presently allocated=1269.68 MB)
computation of group properties took = 0.069643 sec
start global sorting of group catalogues number 15
LargestGroup = 6489.829121; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0522671 sec
Group catalogues globally sorted. took = 0.790974 sec
starting saving of group catalogue number 15
data//groups_015_z000p619
Group catalogues number 15 saved. took = 2.24321 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.720304 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.263005 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.714752 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0188749811 particles. (took 20.3332 sec)
ngb iteration 2: need to repeat for 0147244466 particles. (took 9.61144 sec)
ngb iteration 3: need to repeat for 0127987881 particles. (took 7.01403 sec)
ngb iteration 4: need to repeat for 0116081280 particles. (took 5.69289 sec)
ngb iteration 5: need to repeat for 0103841191 particles. (took 5.00222 sec)
ngb iteration 6: need to repeat for 0087069525 particles. (took 4.4372 sec)
ngb iteration 7: need to repeat for 0066356626 particles. (took 3.80386 sec)
ngb iteration 8: need to repeat for 0045994574 particles. (took 3.067 sec)
ngb iteration 9: need to repeat for 0029551373 particles. (took 2.27736 sec)
ngb iteration 10: need to repeat for 0017995376 particles. (took 1.59604 sec)
ngb iteration 11: need to repeat for 0010587211 particles. (took 1.02759 sec)
ngb iteration 12: need to repeat for 0006107882 particles. (took 0.629096 sec)
ngb iteration 13: need to repeat for 0003489627 particles. (took 0.38637 sec)
ngb iteration 14: need to repeat for 0001897076 particles. (took 0.251906 sec)
ngb iteration 15: need to repeat for 0000898436 particles. (took 0.168655 sec)
ngb iteration 16: need to repeat for 0000443462 particles. (took 0.107325 sec)
ngb iteration 17: need to repeat for 0000225850 particles. (took 0.07547 sec)
ngb iteration 18: need to repeat for 0000116887 particles. (took 0.060322 sec)
ngb iteration 19: need to repeat for 0000060397 particles. (took 0.0520749 sec)
ngb iteration 20: need to repeat for 0000030217 particles. (took 0.0468822 sec)
ngb iteration 21: need to repeat for 0000014578 particles. (took 0.0439739 sec)
ngb iteration 22: need to repeat for 0000006843 particles. (took 0.042557 sec)
ngb iteration 23: need to repeat for 0000003079 particles. (took 0.0416059 sec)
ngb iteration 24: need to repeat for 0000001269 particles. (took 0.0410819 sec)
ngb iteration 25: need to repeat for 0000000481 particles. (took 0.0408731 sec)
ngb iteration 26: need to repeat for 0000000182 particles. (took 0.0406542 sec)
ngb iteration 27: need to repeat for 0000000048 particles. (took 0.040513 sec)
ngb iteration 28: need to repeat for 0000000010 particles. (took 0.040602 sec)
ngb iteration 29: need to repeat for 0000000003 particles. (took 0.0404949 sec)
final operations ... 
density and smoothing length for species 1 took 66.3741 sec
Tree construction.
tree build took 0.720675 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.263982 sec
Tree construction.
tree build took 0.715179 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.262968 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.174169 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.9837 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.713659 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.17249 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.98681 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.173912 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.97958 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.971543 sec
saving densities took 2.48813 sec

Number of FOF halos treated with collective SubFind code = 5
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 211117 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 22104 - 59588379 

subfind_exchange()() took 1.67372 sec

collectively doing halo 1, num=15
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2191.65 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2251.21 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 2251.21 Mbyte (on task=0), Smallest = 1354.68 Mbyte, Average = 1384.25 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0147    1203.0287  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5325    1227.5612  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8876    1268.4488  fof_fof()/fof.c/337
   0 2975 0             Group      1.2285    1269.6773  fof_fof()/fof.c/380
   0 2976 0          SubGroup    921.9773    2191.6546  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    2203.9139  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    2232.5204  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    2233.4655  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    2234.3989  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    2235.3323  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    2236.2657  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    2237.2030  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    2238.1404  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    2251.2080  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=134137
After=165865
NTopleaves= 145132  NTopnodes=165865 (space for 244687)
gravity work-load balance=1.00059   memory-balance=1.00059   SPH work-load balance=0
iter=0 exchange of 0008210319 particles (ret=0)
domain decomposition done. (took 0.963733 sec)
Freed 3.60818 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 2698.18 Mbyte (on task=0), Smallest = 1801.65 Mbyte, Average = 1831.22 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0147    1203.0287  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5325    1227.5612  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8876    1268.4488  fof_fof()/fof.c/337
   0 2975 0             Group      1.2285    1269.6773  fof_fof()/fof.c/380
   0 2976 0          SubGroup    921.9773    2191.6546  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.2254    2200.0051  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5536    2200.5587  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    255.4794    2456.0381  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base    212.8995    2668.9375  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9359    2683.8735  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    2698.1767  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.40098 sec  (presently allocated=2698.18 MB)
force_treebuild() took 1.72373 sec (presently allocated=2698.18 MB)
Start find_linkngb (32067 particles on task=0)
find linkngb iteration 1: need to repeat for 0008047658 particles. (took 0.636393 sec)
find linkngb iteration 2: need to repeat for 0007543110 particles. (took 0.438827 sec)
find linkngb iteration 3: need to repeat for 0007199728 particles. (took 0.299077 sec)
find linkngb iteration 4: need to repeat for 0006339084 particles. (took 0.340259 sec)
find linkngb iteration 5: need to repeat for 0005275858 particles. (took 0.322795 sec)
find linkngb iteration 6: need to repeat for 0003824474 particles. (took 0.237771 sec)
find linkngb iteration 7: need to repeat for 0002406718 particles. (took 0.171047 sec)
find linkngb iteration 8: need to repeat for 0001368396 particles. (took 0.110438 sec)
find linkngb iteration 9: need to repeat for 0000732610 particles. (took 0.0710661 sec)
find linkngb iteration 10: need to repeat for 0000379116 particles. (took 0.0428829 sec)
find linkngb iteration 11: need to repeat for 0000192612 particles. (took 0.0271451 sec)
find linkngb iteration 12: need to repeat for 0000040875 particles. (took 0.0183022 sec)
find linkngb iteration 13: need to repeat for 0000000759 particles. (took 0.00940609 sec)
find linkngb iteration 14: need to repeat for 0000000199 particles. (took 0.000732899 sec)
find linkngb iteration 15: need to repeat for 0000000057 particles. (took 0.00047493 sec)
find linkngb iteration 16: need to repeat for 0000000019 particles. (took 0.000422955 sec)
find linkngb iteration 17: need to repeat for 0000000006 particles. (took 0.000400066 sec)
find_linkngb() took 2.72874 sec
Start finding nearest two (32067 particles on task=0)
find_nearesttwo() took 0.535831 sec (presently allocated=2700.62 MB)
parallel sort of densities done. took 0.0600481 sec
building distributed linked list. (presently allocated 2700.31 MB)
identification of primary candidates took 208.07 sec
adding background as candidate took 0.160329 sec
establishing of rank order took 64.9994 sec  (p=8244516, grouplen=8244516) presently allocated 2700.31 MB

total number of subhalo candidates=38257

number of subhalo candidates that can be done independently=33576.
(Largest size is 5464, finding them took 0.0103979 sec)
particles are marked (took 46.2677)
independent subhalos are assembled on individual CPUs for unbinding (0.191423 sec, (presently allocated=2700.31 MB)
unbinding of independent ones took 0.14023 sec
particles have returned to their original processor (0.234834 sec, presently allocated 2700.31 MB)

number of subhalo candidates that can be done independently=4260.
(Largest size is 14128, finding them took 0.89073 sec)
particles are marked (took 30.4418)
independent subhalos are assembled on individual CPUs for unbinding (0.170662 sec, (presently allocated=2700.31 MB)
unbinding of independent ones took 0.344308 sec
particles have returned to their original processor (0.231747 sec, presently allocated 2700.31 MB)

number of subhalo candidates that can be done independently=386.
(Largest size is 55589, finding them took 0.882629 sec)
particles are marked (took 25.09)
independent subhalos are assembled on individual CPUs for unbinding (0.166326 sec, (presently allocated=2700.31 MB)
unbinding of independent ones took 2.14093 sec
particles have returned to their original processor (0.228254 sec, presently allocated 2700.31 MB)

number of subhalo candidates that can be done independently=31.
(Largest size is 159876, finding them took 0.943736 sec)
particles are marked (took 25.303)
independent subhalos are assembled on individual CPUs for unbinding (0.164259 sec, (presently allocated=2700.31 MB)
unbinding of independent ones took 6.60566 sec
particles have returned to their original processor (0.233565 sec, presently allocated 2700.31 MB)

number of subhalo candidates that can be done independently=2.
(Largest size is 195351, finding them took 0.4666 sec)
particles are marked (took 17.7955)
independent subhalos are assembled on individual CPUs for unbinding (0.15076 sec, (presently allocated=2700.31 MB)
unbinding of independent ones took 0.45658 sec
particles have returned to their original processor (0.215163 sec, presently allocated 2700.31 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 195351, finding them took 0.427075 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=195351 ... maximum alloacted 2700.43 MB
took 6.15157 sec
collective unbinding of nr=1 (2) of length=8244516 ... maximum alloacted 2700.43 MB
took 138.928 sec

the collective unbinding of remaining halos took 161.805 sec

found 2767 bound substructures in FoF group of length 8244516
determination of parent subhalo took 0.0455561 sec (presently allocated 2700.43 MB)
determining substructure properties took 167.323 sec (presently allocated 2700.43 MB)

collectively doing halo 2, num=15
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2191.65 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2251.21 MB)
Before=132761
After=167713
NTopleaves= 146749  NTopnodes=167713 (space for 244687)
gravity work-load balance=1.00063   memory-balance=1.00063   SPH work-load balance=0
iter=0 exchange of 0007492191 particles (ret=0)
domain decomposition done. (took 0.943986 sec)
Freed 3.52359 MByte in top-level domain structure
coldomain_Decomposition() took 1.37439 sec  (presently allocated=2698.59 MB)
force_treebuild() took 1.69788 sec (presently allocated=2698.59 MB)
Start find_linkngb (29232 particles on task=0)
find linkngb iteration 1: need to repeat for 0007383852 particles. (took 0.622323 sec)
find linkngb iteration 2: need to repeat for 0006972176 particles. (took 0.402669 sec)
find linkngb iteration 3: need to repeat for 0006659806 particles. (took 0.28883 sec)
find linkngb iteration 4: need to repeat for 0005870815 particles. (took 0.312982 sec)
find linkngb iteration 5: need to repeat for 0004891369 particles. (took 0.265569 sec)
find linkngb iteration 6: need to repeat for 0003548217 particles. (took 0.219031 sec)
find linkngb iteration 7: need to repeat for 0002233756 particles. (took 0.157867 sec)
find linkngb iteration 8: need to repeat for 0001271106 particles. (took 0.103421 sec)
find linkngb iteration 9: need to repeat for 0000680619 particles. (took 0.064549 sec)
find linkngb iteration 10: need to repeat for 0000353019 particles. (took 0.0397921 sec)
find linkngb iteration 11: need to repeat for 0000179813 particles. (took 0.0272861 sec)
find linkngb iteration 12: need to repeat for 0000038368 particles. (took 0.0176301 sec)
find linkngb iteration 13: need to repeat for 0000000664 particles. (took 0.00914788 sec)
find linkngb iteration 14: need to repeat for 0000000151 particles. (took 0.000742912 sec)
find linkngb iteration 15: need to repeat for 0000000041 particles. (took 0.000447989 sec)
find linkngb iteration 16: need to repeat for 0000000008 particles. (took 0.000412226 sec)
find linkngb iteration 17: need to repeat for 0000000003 particles. (took 0.000396013 sec)
find_linkngb() took 2.53404 sec
Start finding nearest two (29232 particles on task=0)
find_nearesttwo() took 0.49879 sec (presently allocated=2700.82 MB)
parallel sort of densities done. took 0.0928409 sec
building distributed linked list. (presently allocated 2700.53 MB)
identification of primary candidates took 190.423 sec
adding background as candidate took 0.157409 sec
establishing of rank order took 60.266 sec  (p=7526523, grouplen=7526523) presently allocated 2700.53 MB

total number of subhalo candidates=35166

number of subhalo candidates that can be done independently=30867.
(Largest size is 2607, finding them took 0.00953412 sec)
particles are marked (took 42.4787)
independent subhalos are assembled on individual CPUs for unbinding (0.174457 sec, (presently allocated=2700.53 MB)
unbinding of independent ones took 0.052752 sec
particles have returned to their original processor (0.233529 sec, presently allocated 2700.53 MB)

number of subhalo candidates that can be done independently=3950.
(Largest size is 13653, finding them took 0.876451 sec)
particles are marked (took 27.3543)
independent subhalos are assembled on individual CPUs for unbinding (0.165232 sec, (presently allocated=2700.53 MB)
unbinding of independent ones took 0.311179 sec
particles have returned to their original processor (0.228218 sec, presently allocated 2700.53 MB)

number of subhalo candidates that can be done independently=320.
(Largest size is 62860, finding them took 0.868417 sec)
particles are marked (took 22.8304)
independent subhalos are assembled on individual CPUs for unbinding (0.165285 sec, (presently allocated=2700.53 MB)
unbinding of independent ones took 2.52915 sec
particles have returned to their original processor (0.231322 sec, presently allocated 2700.53 MB)

number of subhalo candidates that can be done independently=23.
(Largest size is 578209, finding them took 0.909041 sec)
particles are marked (took 19.7335)
independent subhalos are assembled on individual CPUs for unbinding (0.155341 sec, (presently allocated=2700.53 MB)
unbinding of independent ones took 4.9217 sec
particles have returned to their original processor (0.221213 sec, presently allocated 2700.53 MB)

number of subhalo candidates that can be done independently=4.
(Largest size is 578209, finding them took 0.467752 sec)
particles are marked (took 18.3866)
independent subhalos are assembled on individual CPUs for unbinding (0.162336 sec, (presently allocated=2700.53 MB)
unbinding of independent ones took 2.43661 sec
particles have returned to their original processor (0.234087 sec, presently allocated 2700.53 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 578209, finding them took 0.468144 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=578209 ... maximum alloacted 2700.64 MB
took 11.8197 sec
collective unbinding of nr=1 (2) of length=7526523 ... maximum alloacted 2700.64 MB
took 134.6 sec

the collective unbinding of remaining halos took 161.797 sec

found 2130 bound substructures in FoF group of length 7526523
determination of parent subhalo took 0.0466502 sec (presently allocated 2700.64 MB)
determining substructure properties took 150.405 sec (presently allocated 2700.64 MB)

collectively doing halo 3, num=15
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2191.65 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2251.21 MB)
Before=139953
After=168913
NTopleaves= 147799  NTopnodes=168913 (space for 244687)
gravity work-load balance=1.00061   memory-balance=1.00061   SPH work-load balance=0
iter=0 exchange of 0006484865 particles (ret=0)
domain decomposition done. (took 0.938384 sec)
Freed 3.46866 MByte in top-level domain structure
coldomain_Decomposition() took 1.36924 sec  (presently allocated=2698.86 MB)
force_treebuild() took 1.69289 sec (presently allocated=2698.86 MB)
Start find_linkngb (25352 particles on task=0)
find linkngb iteration 1: need to repeat for 0006411294 particles. (took 0.467133 sec)
find linkngb iteration 2: need to repeat for 0006102097 particles. (took 0.323721 sec)
find linkngb iteration 3: need to repeat for 0005828419 particles. (took 0.221472 sec)
find linkngb iteration 4: need to repeat for 0005156108 particles. (took 0.251417 sec)
find linkngb iteration 5: need to repeat for 0004300567 particles. (took 0.216714 sec)
find linkngb iteration 6: need to repeat for 0003122960 particles. (took 0.179213 sec)
find linkngb iteration 7: need to repeat for 0001967062 particles. (took 0.129194 sec)
find linkngb iteration 8: need to repeat for 0001119602 particles. (took 0.086417 sec)
find linkngb iteration 9: need to repeat for 0000599103 particles. (took 0.0551341 sec)
find linkngb iteration 10: need to repeat for 0000310795 particles. (took 0.0354671 sec)
find linkngb iteration 11: need to repeat for 0000157918 particles. (took 0.022965 sec)
find linkngb iteration 12: need to repeat for 0000033522 particles. (took 0.0161481 sec)
find linkngb iteration 13: need to repeat for 0000000755 particles. (took 0.00876093 sec)
find linkngb iteration 14: need to repeat for 0000000176 particles. (took 0.000753164 sec)
find linkngb iteration 15: need to repeat for 0000000048 particles. (took 0.000473022 sec)
find linkngb iteration 16: need to repeat for 0000000010 particles. (took 0.000405073 sec)
find linkngb iteration 17: need to repeat for 0000000001 particles. (took 0.000435829 sec)
find_linkngb() took 2.01676 sec
Start finding nearest two (25352 particles on task=0)
find_nearesttwo() took 0.399324 sec (presently allocated=2700.8 MB)
parallel sort of densities done. took 0.0569751 sec
building distributed linked list. (presently allocated 2700.54 MB)
identification of primary candidates took 175.18 sec
adding background as candidate took 0.15714 sec
establishing of rank order took 52.4683 sec  (p=6511507, grouplen=6511507) presently allocated 2700.54 MB

total number of subhalo candidates=26556

number of subhalo candidates that can be done independently=23711.
(Largest size is 2715, finding them took 0.00746298 sec)
particles are marked (took 33.013)
independent subhalos are assembled on individual CPUs for unbinding (0.165385 sec, (presently allocated=2700.54 MB)
unbinding of independent ones took 0.0752549 sec
particles have returned to their original processor (0.224017 sec, presently allocated 2700.54 MB)

number of subhalo candidates that can be done independently=2580.
(Largest size is 14121, finding them took 0.865272 sec)
particles are marked (took 21.4212)
independent subhalos are assembled on individual CPUs for unbinding (0.163338 sec, (presently allocated=2700.54 MB)
unbinding of independent ones took 0.28141 sec
particles have returned to their original processor (0.224761 sec, presently allocated 2700.54 MB)

number of subhalo candidates that can be done independently=240.
(Largest size is 110693, finding them took 1.08047 sec)
particles are marked (took 21.4741)
independent subhalos are assembled on individual CPUs for unbinding (0.184309 sec, (presently allocated=2700.54 MB)
unbinding of independent ones took 5.97762 sec
particles have returned to their original processor (0.258983 sec, presently allocated 2700.54 MB)

number of subhalo candidates that can be done independently=21.
(Largest size is 306087, finding them took 0.857516 sec)
particles are marked (took 15.7477)
independent subhalos are assembled on individual CPUs for unbinding (0.159451 sec, (presently allocated=2700.54 MB)
unbinding of independent ones took 1.28002 sec
particles have returned to their original processor (0.228473 sec, presently allocated 2700.54 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 708715, finding them took 0.463953 sec)
too few, I do the rest of 4 collectively

collective unbinding of nr=0 (4) of length=708715 ... maximum alloacted 2700.64 MB
took 11.6415 sec
collective unbinding of nr=1 (4) of length=306087 ... maximum alloacted 2700.64 MB
took 5.98393 sec
collective unbinding of nr=2 (4) of length=469328 ... maximum alloacted 2700.64 MB
took 12.323 sec
collective unbinding of nr=3 (4) of length=6511507 ... maximum alloacted 2700.64 MB
took 134.629 sec

the collective unbinding of remaining halos took 176.347 sec

found 2599 bound substructures in FoF group of length 6511507
determination of parent subhalo took 0.041898 sec (presently allocated 2700.64 MB)
determining substructure properties took 154.09 sec (presently allocated 2700.64 MB)

collectively doing halo 4, num=15
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2191.65 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2251.21 MB)
Before=143097
After=170729
NTopleaves= 149388  NTopnodes=170729 (space for 244687)
gravity work-load balance=1.0005   memory-balance=1.0005   SPH work-load balance=0
iter=0 exchange of 0003888933 particles (ret=0)
domain decomposition done. (took 0.911496 sec)
Freed 3.38553 MByte in top-level domain structure
coldomain_Decomposition() took 1.3441 sec  (presently allocated=2699.27 MB)
force_treebuild() took 1.67045 sec (presently allocated=2699.27 MB)
Start find_linkngb (15212 particles on task=0)
find linkngb iteration 1: need to repeat for 0003887589 particles. (took 0.278267 sec)
find linkngb iteration 2: need to repeat for 0003786289 particles. (took 0.181248 sec)
find linkngb iteration 3: need to repeat for 0003626407 particles. (took 0.125459 sec)
find linkngb iteration 4: need to repeat for 0003237186 particles. (took 0.142609 sec)
find linkngb iteration 5: need to repeat for 0002710589 particles. (took 0.123353 sec)
find linkngb iteration 6: need to repeat for 0001970818 particles. (took 0.104196 sec)
find linkngb iteration 7: need to repeat for 0001243660 particles. (took 0.078171 sec)
find linkngb iteration 8: need to repeat for 0000707957 particles. (took 0.0549791 sec)
find linkngb iteration 9: need to repeat for 0000379597 particles. (took 0.036876 sec)
find linkngb iteration 10: need to repeat for 0000196523 particles. (took 0.0237541 sec)
find linkngb iteration 11: need to repeat for 0000100120 particles. (took 0.0168691 sec)
find linkngb iteration 12: need to repeat for 0000021349 particles. (took 0.012486 sec)
find linkngb iteration 13: need to repeat for 0000000555 particles. (took 0.0074079 sec)
find linkngb iteration 14: need to repeat for 0000000156 particles. (took 0.000610828 sec)
find linkngb iteration 15: need to repeat for 0000000051 particles. (took 0.000393867 sec)
find linkngb iteration 16: need to repeat for 0000000012 particles. (took 0.000353098 sec)
find_linkngb() took 1.1879 sec
Start finding nearest two (15212 particles on task=0)
find_nearesttwo() took 0.246849 sec (presently allocated=2700.43 MB)
parallel sort of densities done. took 0.048353 sec
building distributed linked list. (presently allocated 2700.28 MB)
identification of primary candidates took 119.944 sec
adding background as candidate took 0.157564 sec
establishing of rank order took 32.6006 sec  (p=3904347, grouplen=3904347) presently allocated 2700.28 MB

total number of subhalo candidates=14535

number of subhalo candidates that can be done independently=13169.
(Largest size is 4676, finding them took 0.00435686 sec)
particles are marked (took 18.4706)
independent subhalos are assembled on individual CPUs for unbinding (0.157862 sec, (presently allocated=2700.28 MB)
unbinding of independent ones took 0.0784481 sec
particles have returned to their original processor (0.217704 sec, presently allocated 2700.28 MB)

number of subhalo candidates that can be done independently=1248.
(Largest size is 14234, finding them took 0.847144 sec)
particles are marked (took 12.2143)
independent subhalos are assembled on individual CPUs for unbinding (0.160727 sec, (presently allocated=2700.28 MB)
unbinding of independent ones took 0.35799 sec
particles have returned to their original processor (0.222061 sec, presently allocated 2700.28 MB)

number of subhalo candidates that can be done independently=101.
(Largest size is 95066, finding them took 0.771987 sec)
particles are marked (took 11.7868)
independent subhalos are assembled on individual CPUs for unbinding (0.172139 sec, (presently allocated=2700.28 MB)
unbinding of independent ones took 4.04662 sec
particles have returned to their original processor (0.246702 sec, presently allocated 2700.28 MB)

number of subhalo candidates that can be done independently=12.
(Largest size is 113947, finding them took 0.460107 sec)
particles are marked (took 9.73312)
independent subhalos are assembled on individual CPUs for unbinding (0.160347 sec, (presently allocated=2700.28 MB)
unbinding of independent ones took 3.86513 sec
particles have returned to their original processor (0.230971 sec, presently allocated 2700.28 MB)

number of subhalo candidates that can be done independently=2.
(Largest size is 1123748, finding them took 0.456087 sec)
too big candidates, I do the rest collectively

collective unbinding of nr=0 (5) of length=5549 ... maximum alloacted 2700.34 MB
took 1.64201 sec
collective unbinding of nr=1 (5) of length=53157 ... maximum alloacted 2700.34 MB
took 5.28419 sec
collective unbinding of nr=2 (5) of length=1123748 ... maximum alloacted 2700.34 MB
took 25.4821 sec
collective unbinding of nr=3 (5) of length=1138904 ... maximum alloacted 2700.34 MB
took 23.1105 sec
collective unbinding of nr=4 (5) of length=3904347 ... maximum alloacted 2700.34 MB
took 72.5028 sec

the collective unbinding of remaining halos took 134.403 sec

found 1491 bound substructures in FoF group of length 3904347
determination of parent subhalo took 0.0362749 sec (presently allocated 2700.34 MB)
determining substructure properties took 109.208 sec (presently allocated 2700.34 MB)

collectively doing halo 5, num=15
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2191.65 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2251.21 MB)
Before=146649
After=169209
NTopleaves= 148058  NTopnodes=169209 (space for 244687)
gravity work-load balance=1.00062   memory-balance=1.00062   SPH work-load balance=0
iter=0 exchange of 0002903587 particles (ret=0)
domain decomposition done. (took 0.893171 sec)
Freed 3.45511 MByte in top-level domain structure
coldomain_Decomposition() took 1.32759 sec  (presently allocated=2698.93 MB)
force_treebuild() took 1.67303 sec (presently allocated=2698.93 MB)
Start find_linkngb (11390 particles on task=0)
find linkngb iteration 1: need to repeat for 0002908491 particles. (took 0.204988 sec)
find linkngb iteration 2: need to repeat for 0002856318 particles. (took 0.132506 sec)
find linkngb iteration 3: need to repeat for 0002738990 particles. (took 0.0944769 sec)
find linkngb iteration 4: need to repeat for 0002456089 particles. (took 0.106709 sec)
find linkngb iteration 5: need to repeat for 0002060532 particles. (took 0.0938962 sec)
find linkngb iteration 6: need to repeat for 0001499864 particles. (took 0.0799191 sec)
find linkngb iteration 7: need to repeat for 0000946267 particles. (took 0.061662 sec)
find linkngb iteration 8: need to repeat for 0000539875 particles. (took 0.0446281 sec)
find linkngb iteration 9: need to repeat for 0000289378 particles. (took 0.0290239 sec)
find linkngb iteration 10: need to repeat for 0000149516 particles. (took 0.0198021 sec)
find linkngb iteration 11: need to repeat for 0000075878 particles. (took 0.0150399 sec)
find linkngb iteration 12: need to repeat for 0000016735 particles. (took 0.0110559 sec)
find linkngb iteration 13: need to repeat for 0000000501 particles. (took 0.00682402 sec)
find linkngb iteration 14: need to repeat for 0000000136 particles. (took 0.000567913 sec)
find linkngb iteration 15: need to repeat for 0000000037 particles. (took 0.000421047 sec)
find linkngb iteration 16: need to repeat for 0000000009 particles. (took 0.000346899 sec)
find linkngb iteration 17: need to repeat for 0000000002 particles. (took 0.000339031 sec)
find_linkngb() took 0.903052 sec
Start finding nearest two (11390 particles on task=0)
find_nearesttwo() took 0.185583 sec (presently allocated=2699.8 MB)
parallel sort of densities done. took 0.0422268 sec
building distributed linked list. (presently allocated 2699.68 MB)
identification of primary candidates took 82.1748 sec
adding background as candidate took 0.15655 sec
establishing of rank order took 24.5986 sec  (p=2914556, grouplen=2914556) presently allocated 2699.68 MB

total number of subhalo candidates=11982

number of subhalo candidates that can be done independently=10769.
(Largest size is 2085, finding them took 0.00356603 sec)
particles are marked (took 15.1148)
independent subhalos are assembled on individual CPUs for unbinding (0.157298 sec, (presently allocated=2699.68 MB)
unbinding of independent ones took 0.0362148 sec
particles have returned to their original processor (0.216578 sec, presently allocated 2699.68 MB)

number of subhalo candidates that can be done independently=1096.
(Largest size is 11256, finding them took 0.839041 sec)
particles are marked (took 9.55575)
independent subhalos are assembled on individual CPUs for unbinding (0.159261 sec, (presently allocated=2699.68 MB)
unbinding of independent ones took 0.214864 sec
particles have returned to their original processor (0.219806 sec, presently allocated 2699.68 MB)

number of subhalo candidates that can be done independently=93.
(Largest size is 21189, finding them took 0.938176 sec)
particles are marked (took 7.54392)
independent subhalos are assembled on individual CPUs for unbinding (0.159457 sec, (presently allocated=2699.68 MB)
unbinding of independent ones took 0.396268 sec
particles have returned to their original processor (0.229829 sec, presently allocated 2699.68 MB)

number of subhalo candidates that can be done independently=17.
(Largest size is 590674, finding them took 0.461036 sec)
particles are marked (took 7.07416)
independent subhalos are assembled on individual CPUs for unbinding (0.157092 sec, (presently allocated=2699.68 MB)
unbinding of independent ones took 0.460329 sec
particles have returned to their original processor (0.229816 sec, presently allocated 2699.68 MB)

number of subhalo candidates that can be done independently=4.
(Largest size is 590674, finding them took 0.462585 sec)
particles are marked (took 7.70668)
independent subhalos are assembled on individual CPUs for unbinding (0.160211 sec, (presently allocated=2699.68 MB)
unbinding of independent ones took 2.24001 sec
particles have returned to their original processor (0.232855 sec, presently allocated 2699.68 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 590674, finding them took 0.46184 sec)
particles are marked (took 6.45292)
independent subhalos are assembled on individual CPUs for unbinding (0.15814 sec, (presently allocated=2699.68 MB)
unbinding of independent ones took 1.50489 sec
particles have returned to their original processor (0.234012 sec, presently allocated 2699.68 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 590674, finding them took 0.449537 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=590674 ... maximum alloacted 2699.73 MB
took 11.7506 sec
collective unbinding of nr=1 (2) of length=2914556 ... maximum alloacted 2699.73 MB
took 63.4376 sec

the collective unbinding of remaining halos took 80.4585 sec

found 1207 bound substructures in FoF group of length 2914556
determination of parent subhalo took 0.0383692 sec (presently allocated 2699.73 MB)
determining substructure properties took 71.2923 sec (presently allocated 2699.73 MB)
processing of collective halos took 2991.21 sec
sort of local particles()() took 0.611491 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 359.11 sec

Task 222: testing particles ...
Task 224: testing particles ...
Task 173: testing particles ...
Task 254: testing particles ...
Task 179: testing particles ...
Task 233: testing particles ...
Task 113: testing particles ...
Task 4: testing particles ...
Task 226: testing particles ...
Task 218: testing particles ...
Task 142: testing particles ...
Task 227: testing particles ...
Task 192: testing particles ...
Task 200: testing particles ...
Task 169: testing particles ...
Task 202: testing particles ...
Task 207: testing particles ...
Task 127: testing particles ...
Task 149: testing particles ...
Task 136: testing particles ...
Task 219: testing particles ...
Task 243: testing particles ...
Task 190: testing particles ...
Task 208: testing particles ...
Task 107: testing particles ...
Task 235: testing particles ...
Task 240: testing particles ...
Task 160: testing particles ...
unsorting of local particles()() took 0.518634 sec
Task 0: testing particles ...
Task 148: testing particles ...
Task 211: testing particles ...
Task 157: testing particles ...
Task 210: testing particles ...
Task 166: testing particles ...
Task 182: testing particles ...
Task 228: testing particles ...
Task 213: testing particles ...
Task 116: testing particles ...
Task 198: testing particles ...
Task 126: testing particles ...
Task 189: testing particles ...
Task 250: testing particles ...
Task 251: testing particles ...
Task 253: testing particles ...
Task 237: testing particles ...
Task 134: testing particles ...
Task 121: testing particles ...
Task 3: testing particles ...
Task 144: testing particles ...
Task 191: testing particles ...
Task 238: testing particles ...
Task 244: testing particles ...
Task 187: testing particles ...
Task 96: testing particles ...
Task 162: testing particles ...
Task 164: testing particles ...
Task 97: testing particles ...
Task 1: testing particles ...
Task 87: testing particles ...
Task 194: testing particles ...
Task 206: testing particles ...
Task 125: testing particles ...
Task 106: testing particles ...
Task 255: testing particles ...
Task 236: testing particles ...
Task 229: testing particles ...
Task 130: testing particles ...
Task 249: testing particles ...
Task 176: testing particles ...
Task 152: testing particles ...
Task 95: testing particles ...
Task 108: testing particles ...
Task 2: testing particles ...
Task 204: testing particles ...
Task 252: testing particles ...
Task 168: testing particles ...
Task 201: testing particles ...
Task 186: testing particles ...
Task 223: testing particles ...
Task 231: testing particles ...
Task 77: testing particles ...
Task 248: testing particles ...
Task 170: testing particles ...
Task 195: testing particles ...
Task 178: testing particles ...
Task 247: testing particles ...
Task 81: testing particles ...
Task 246: testing particles ...
Task 138: testing particles ...
Task 140: testing particles ...
Task 220: testing particles ...
Task 217: testing particles ...
Task 133: testing particles ...
Task 171: testing particles ...
Task 193: testing particles ...
Task 205: testing particles ...
Task 150: testing particles ...
Task 112: testing particles ...
Task 241: testing particles ...
Task 245: testing particles ...
Task 167: testing particles ...
Task 165: testing particles ...
Task 100: testing particles ...
Task 232: testing particles ...
Task 155: testing particles ...
Task 89: testing particles ...
Task 214: testing particles ...
Task 114: testing particles ...
Task 105: testing particles ...
Task 93: testing particles ...
Task 230: testing particles ...
Task 143: testing particles ...
Task 115: testing particles ...
Task 183: testing particles ...
Task 197: testing particles ...
Task 185: testing particles ...
Task 78: testing particles ...
Task 154: testing particles ...
Task 137: testing particles ...
Task 221: testing particles ...
Task 174: testing particles ...
Task 91: testing particles ...
Task 84: testing particles ...
Task 132: testing particles ...
Task 184: testing particles ...
Task 146: testing particles ...
Task 215: testing particles ...
Task 110: testing particles ...
Task 151: testing particles ...
Task 122: testing particles ...
Task 101: testing particles ...
Task 175: testing particles ...
Task 92: testing particles ...
Task 58: testing particles ...
Task 163: testing particles ...
Task 68: testing particles ...
Task 104: testing particles ...
Task 147: testing particles ...
Task 242: testing particles ...
Task 159: testing particles ...
Task 66: testing particles ...
Task 119: testing particles ...
Task 203: testing particles ...
Task 216: testing particles ...
Task 181: testing particles ...
Task 188: testing particles ...
Task 54: testing particles ...
Task 117: testing particles ...
Task 239: testing particles ...
Task 135: testing particles ...
Task 209: testing particles ...
Task 61: testing particles ...
Task 225: testing particles ...
Task 48: testing particles ...
Task 98: testing particles ...
Task 109: testing particles ...
Task 73: testing particles ...
Task 196: testing particles ...
Task 71: testing particles ...
Task 129: testing particles ...
Task 70: testing particles ...
Task 59: testing particles ...
Task 118: testing particles ...
Task 74: testing particles ...
Task 123: testing particles ...
Task 180: testing particles ...
Task 177: testing particles ...
Task 99: testing particles ...
Task 141: testing particles ...
Task 120: testing particles ...
Task 57: testing particles ...
Task 50: testing particles ...
Task 212: testing particles ...
Task 139: testing particles ...
Task 90: testing particles ...
Task 145: testing particles ...
Task 88: testing particles ...
Task 72: testing particles ...
Task 158: testing particles ...
Task 65: testing particles ...
Task 128: testing particles ...
Task 51: testing particles ...
Task 83: testing particles ...
Task 55: testing particles ...
Task 131: testing particles ...
Task 103: testing particles ...
Task 82: testing particles ...
Task 94: testing particles ...
Task 79: testing particles ...
Task 80: testing particles ...
Task 234: testing particles ...
Task 156: testing particles ...
Task 86: testing particles ...
Task 172: testing particles ...
Task 161: testing particles ...
Task 102: testing particles ...
Task 45: testing particles ...
Task 124: testing particles ...
Task 69: testing particles ...
Task 75: testing particles ...
Task 111: testing particles ...
Task 63: testing particles ...
Task 199: testing particles ...
Task 42: testing particles ...
Task 49: testing particles ...
Task 153: testing particles ...
Task 52: testing particles ...
Task 53: testing particles ...
Task 85: testing particles ...
Task 44: testing particles ...
Task 47: testing particles ...
Task 64: testing particles ...
Task 35: testing particles ...
Task 34: testing particles ...
Task 76: testing particles ...
Task 62: testing particles ...
Task 67: testing particles ...
Task 60: testing particles ...
Task 33: testing particles ...
Task 27: testing particles ...
Task 36: testing particles ...
Task 46: testing particles ...
Task 26: testing particles ...
Task 37: testing particles ...
Task 56: testing particles ...
Task 22: testing particles ...
Task 40: testing particles ...
Task 29: testing particles ...
Task 31: testing particles ...
Task 38: testing particles ...
Task 30: testing particles ...
Task 28: testing particles ...
Task 43: testing particles ...
Task 39: testing particles ...
Task 19: testing particles ...
Task 41: testing particles ...
Task 23: testing particles ...
Task 21: testing particles ...
Task 24: testing particles ...
Task 18: testing particles ...
Task 25: testing particles ...
Task 32: testing particles ...
Task 20: testing particles ...
Task 15: testing particles ...
Task 17: testing particles ...
Task 16: testing particles ...
Task 14: testing particles ...
Task 13: testing particles ...
Task 12: testing particles ...
Task 11: testing particles ...
Task 7: testing particles ...
Task 10: testing particles ...
Task 9: testing particles ...
Task 6: testing particles ...
Task 8: testing particles ...
Task 5: testing particles ...
subfind_exchange() (for return to original CPU)  took 3.23291 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2191.65 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2251.21 MB)
Before=187561
After=205937
NTopleaves= 180195  NTopnodes=205937 (space for 244687)
gravity work-load balance=1.00049   memory-balance=1.00049   SPH work-load balance=0
iter=0 exchange of 0273285450 particles (ret=0)
domain decomposition done. (took 3.91305 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.77383 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000175633 particles. (took 0.0302188 sec)
SO iteration 2: need to repeat for 0000175633 particles. (took 0.02349 sec)
SO iteration 3: need to repeat for 0000175633 particles. (took 0.0237041 sec)
SO iteration 4: need to repeat for 0000175633 particles. (took 0.0240328 sec)
SO iteration 5: need to repeat for 0000175633 particles. (took 0.024014 sec)
SO iteration 6: need to repeat for 0000175633 particles. (took 0.0240889 sec)
SO iteration 7: need to repeat for 0000175633 particles. (took 0.0240178 sec)
SO iteration 8: need to repeat for 0000175633 particles. (took 0.024107 sec)
SO iteration 9: need to repeat for 0000175633 particles. (took 0.023958 sec)
SO iteration 10: need to repeat for 0000175633 particles. (took 0.024071 sec)
SO iteration 11: need to repeat for 0000175633 particles. (took 0.0240018 sec)
SO iteration 12: need to repeat for 0000175633 particles. (took 0.024029 sec)
SO iteration 13: need to repeat for 0000175633 particles. (took 0.0240149 sec)
SO iteration 14: need to repeat for 0000175633 particles. (took 0.0241249 sec)
SO iteration 15: need to repeat for 0000175184 particles. (took 0.024364 sec)
SO iteration 16: need to repeat for 0000000748 particles. (took 0.024111 sec)
SO iteration 17: need to repeat for 0000000046 particles. (took 0.001616 sec)
SO iteration 18: need to repeat for 0000000002 particles. (took 0.000988007 sec)
SO iteration 1: need to repeat for 0000175633 particles. (took 0.024437 sec)
SO iteration 2: need to repeat for 0000175633 particles. (took 0.022171 sec)
SO iteration 3: need to repeat for 0000175633 particles. (took 0.0229712 sec)
SO iteration 4: need to repeat for 0000175633 particles. (took 0.0225871 sec)
SO iteration 5: need to repeat for 0000175633 particles. (took 0.0225871 sec)
SO iteration 6: need to repeat for 0000175633 particles. (took 0.0224991 sec)
SO iteration 7: need to repeat for 0000175633 particles. (took 0.0222991 sec)
SO iteration 8: need to repeat for 0000175633 particles. (took 0.0223892 sec)
SO iteration 9: need to repeat for 0000175633 particles. (took 0.022505 sec)
SO iteration 10: need to repeat for 0000175633 particles. (took 0.0225241 sec)
SO iteration 11: need to repeat for 0000175633 particles. (took 0.0226178 sec)
SO iteration 12: need to repeat for 0000175633 particles. (took 0.022614 sec)
SO iteration 13: need to repeat for 0000175633 particles. (took 0.0226481 sec)
SO iteration 14: need to repeat for 0000175633 particles. (took 0.0229421 sec)
SO iteration 15: need to repeat for 0000175526 particles. (took 0.0226889 sec)
SO iteration 16: need to repeat for 0000033733 particles. (took 0.0225542 sec)
SO iteration 17: need to repeat for 0000000451 particles. (took 0.00947189 sec)
SO iteration 18: need to repeat for 0000000045 particles. (took 0.00102901 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000615835 sec)
SO iteration 1: need to repeat for 0000175633 particles. (took 0.024359 sec)
SO iteration 2: need to repeat for 0000175633 particles. (took 0.0220912 sec)
SO iteration 3: need to repeat for 0000175633 particles. (took 0.0197868 sec)
SO iteration 4: need to repeat for 0000175633 particles. (took 0.0209301 sec)
SO iteration 5: need to repeat for 0000175633 particles. (took 0.0333209 sec)
SO iteration 6: need to repeat for 0000175633 particles. (took 0.0256021 sec)
SO iteration 7: need to repeat for 0000175633 particles. (took 0.0203378 sec)
SO iteration 8: need to repeat for 0000175633 particles. (took 0.0218601 sec)
SO iteration 9: need to repeat for 0000175633 particles. (took 0.0202191 sec)
SO iteration 10: need to repeat for 0000175633 particles. (took 0.0343411 sec)
SO iteration 11: need to repeat for 0000175633 particles. (took 0.025099 sec)
SO iteration 12: need to repeat for 0000175633 particles. (took 0.0201671 sec)
SO iteration 13: need to repeat for 0000175633 particles. (took 0.0201409 sec)
SO iteration 14: need to repeat for 0000175633 particles. (took 0.0201721 sec)
SO iteration 15: need to repeat for 0000175627 particles. (took 0.0201838 sec)
SO iteration 16: need to repeat for 0000175606 particles. (took 0.020221 sec)
SO iteration 17: need to repeat for 0000063020 particles. (took 0.02072 sec)
SO iteration 18: need to repeat for 0000001325 particles. (took 0.0112629 sec)
SO iteration 19: need to repeat for 0000000086 particles. (took 0.00116897 sec)
SO iteration 1: need to repeat for 0000175633 particles. (took 0.0242169 sec)
SO iteration 2: need to repeat for 0000175633 particles. (took 0.0221338 sec)
SO iteration 3: need to repeat for 0000175633 particles. (took 0.0236378 sec)
SO iteration 4: need to repeat for 0000175633 particles. (took 0.023706 sec)
SO iteration 5: need to repeat for 0000175633 particles. (took 0.0257471 sec)
SO iteration 6: need to repeat for 0000175633 particles. (took 0.024152 sec)
SO iteration 7: need to repeat for 0000175633 particles. (took 0.023947 sec)
SO iteration 8: need to repeat for 0000175633 particles. (took 0.024348 sec)
SO iteration 9: need to repeat for 0000175633 particles. (took 0.0237262 sec)
SO iteration 10: need to repeat for 0000175633 particles. (took 0.0237999 sec)
SO iteration 11: need to repeat for 0000175633 particles. (took 0.0238252 sec)
SO iteration 12: need to repeat for 0000175633 particles. (took 0.0237801 sec)
SO iteration 13: need to repeat for 0000175633 particles. (took 0.0238309 sec)
SO iteration 14: need to repeat for 0000175633 particles. (took 0.023849 sec)
SO iteration 15: need to repeat for 0000175258 particles. (took 0.0238149 sec)
SO iteration 16: need to repeat for 0000001137 particles. (took 0.0236189 sec)
SO iteration 17: need to repeat for 0000000064 particles. (took 0.001261 sec)
SO iteration 18: need to repeat for 0000000003 particles. (took 0.000648022 sec)
SO iteration 1: need to repeat for 0000175633 particles. (took 0.024312 sec)
SO iteration 2: need to repeat for 0000175633 particles. (took 0.0220718 sec)
SO iteration 3: need to repeat for 0000175633 particles. (took 0.0230761 sec)
SO iteration 4: need to repeat for 0000175633 particles. (took 0.0231738 sec)
SO iteration 5: need to repeat for 0000175633 particles. (took 0.0231271 sec)
SO iteration 6: need to repeat for 0000175633 particles. (took 0.0231309 sec)
SO iteration 7: need to repeat for 0000175633 particles. (took 0.023021 sec)
SO iteration 8: need to repeat for 0000175633 particles. (took 0.022985 sec)
SO iteration 9: need to repeat for 0000175633 particles. (took 0.0231569 sec)
SO iteration 10: need to repeat for 0000175633 particles. (took 0.0234141 sec)
SO iteration 11: need to repeat for 0000175633 particles. (took 0.023066 sec)
SO iteration 12: need to repeat for 0000175633 particles. (took 0.0231271 sec)
SO iteration 13: need to repeat for 0000175633 particles. (took 0.023077 sec)
SO iteration 14: need to repeat for 0000175633 particles. (took 0.0232809 sec)
SO iteration 15: need to repeat for 0000175405 particles. (took 0.0232582 sec)
SO iteration 16: need to repeat for 0000004498 particles. (took 0.0230861 sec)
SO iteration 17: need to repeat for 0000000147 particles. (took 0.00272298 sec)
SO iteration 18: need to repeat for 0000000012 particles. (took 0.000664949 sec)
SO iteration 1: need to repeat for 0000175633 particles. (took 0.0242779 sec)
SO iteration 2: need to repeat for 0000175633 particles. (took 0.0349329 sec)
SO iteration 3: need to repeat for 0000175633 particles. (took 0.024761 sec)
SO iteration 4: need to repeat for 0000175633 particles. (took 0.035574 sec)
SO iteration 5: need to repeat for 0000175633 particles. (took 0.0441618 sec)
SO iteration 6: need to repeat for 0000175633 particles. (took 0.0299699 sec)
SO iteration 7: need to repeat for 0000175633 particles. (took 0.0218859 sec)
SO iteration 8: need to repeat for 0000175633 particles. (took 0.021904 sec)
SO iteration 9: need to repeat for 0000175633 particles. (took 0.0219431 sec)
SO iteration 10: need to repeat for 0000175633 particles. (took 0.0218852 sec)
SO iteration 11: need to repeat for 0000175633 particles. (took 0.0220461 sec)
SO iteration 12: need to repeat for 0000175633 particles. (took 0.0219491 sec)
SO iteration 13: need to repeat for 0000175633 particles. (took 0.021991 sec)
SO iteration 14: need to repeat for 0000175633 particles. (took 0.021971 sec)
SO iteration 15: need to repeat for 0000175583 particles. (took 0.022043 sec)
SO iteration 16: need to repeat for 0000169851 particles. (took 0.021955 sec)
SO iteration 17: need to repeat for 0000001521 particles. (took 0.021641 sec)
SO iteration 18: need to repeat for 0000000112 particles. (took 0.00139594 sec)
SO iteration 19: need to repeat for 0000000005 particles. (took 0.000592947 sec)
SO iteration 1: need to repeat for 0000175633 particles. (took 0.024327 sec)
SO iteration 2: need to repeat for 0000175633 particles. (took 0.0219121 sec)
SO iteration 3: need to repeat for 0000175633 particles. (took 0.0196848 sec)
SO iteration 4: need to repeat for 0000175633 particles. (took 0.019439 sec)
SO iteration 5: need to repeat for 0000175633 particles. (took 0.0197661 sec)
SO iteration 6: need to repeat for 0000175633 particles. (took 0.0198281 sec)
SO iteration 7: need to repeat for 0000175633 particles. (took 0.0197809 sec)
SO iteration 8: need to repeat for 0000175633 particles. (took 0.019748 sec)
SO iteration 9: need to repeat for 0000175633 particles. (took 0.019753 sec)
SO iteration 10: need to repeat for 0000175633 particles. (took 0.0197248 sec)
SO iteration 11: need to repeat for 0000175633 particles. (took 0.019712 sec)
SO iteration 12: need to repeat for 0000175633 particles. (took 0.0196998 sec)
SO iteration 13: need to repeat for 0000175633 particles. (took 0.019608 sec)
SO iteration 14: need to repeat for 0000175633 particles. (took 0.0196581 sec)
SO iteration 15: need to repeat for 0000175627 particles. (took 0.0197361 sec)
SO iteration 16: need to repeat for 0000175617 particles. (took 0.0196829 sec)
SO iteration 17: need to repeat for 0000159597 particles. (took 0.019659 sec)
SO iteration 18: need to repeat for 0000006186 particles. (took 0.018641 sec)
SO iteration 19: need to repeat for 0000000175 particles. (took 0.00262284 sec)
SO iteration 20: need to repeat for 0000000009 particles. (took 0.000611782 sec)
determining spherical overdensity masses took 2.73564 sec
finding spherical overdensity particles took 0.615974 sec
determining contamination of halos took 0.231136 sec
Global sort of Groups took 0.165037 sec
Global sort of SubGroups took 0.630325 sec
Global sort of IDs took 0.593985 sec
Writing block 0 (GLEN), n=825, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3300d
Writing block 1 (GOFF), n=825, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3300d
Writing block 2 (MTOT), n=825, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3300d
Writing block 3 (GPOS), n=825, ptype=0, dtype=1, ndim=3, bpb=4 bytes=9900d
Writing block 4 (MMEA), n=825, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3300d
Writing block 5 (RMEA), n=825, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3300d
Writing block 6 (MCRI), n=825, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3300d
Writing block 7 (RCRI), n=825, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3300d
Writing block 8 (MTOP), n=825, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3300d
Writing block 9 (RTOP), n=825, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3300d
Writing block 17 (NCON), n=825, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3300d
Writing block 18 (MCON), n=825, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3300d
Writing block 22 (NSUB), n=825, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3300d
Writing block 23 (FSUB), n=825, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3300d
Writing block 24 (SLEN), n=3572, ptype=1, dtype=0, ndim=1, bpb=4 bytes=14288d
Writing block 25 (SOFF), n=3572, ptype=1, dtype=0, ndim=1, bpb=4 bytes=14288d
Writing block 27 (MSUB), n=3572, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 28 (SPOS), n=3572, ptype=1, dtype=1, ndim=3, bpb=4 bytes=42864d
Writing block 29 (SVEL), n=3572, ptype=1, dtype=1, ndim=3, bpb=4 bytes=42864d
Writing block 30 (SCM ), n=3572, ptype=1, dtype=1, ndim=3, bpb=4 bytes=42864d
Writing block 33 (VMAX), n=3572, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 34 (RMAX), n=3572, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 35 (RHMS), n=3572, ptype=1, dtype=1, ndim=6, bpb=4 bytes=85728d
Writing block 36 (MTRH), n=3572, ptype=1, dtype=1, ndim=6, bpb=4 bytes=85728d
Writing block 37 (MBID), n=3572, ptype=1, dtype=2, ndim=1, bpb=8 bytes=28576d
Writing block 38 (GRNR), n=3572, ptype=1, dtype=0, ndim=1, bpb=4 bytes=14288d
Writing block 39 (SUBN), n=3572, ptype=1, dtype=0, ndim=1, bpb=4 bytes=14288d
Writing block 40 (SMST), n=3572, ptype=1, dtype=1, ndim=6, bpb=4 bytes=85728d
Writing block 53 (PID ), n=546195, ptype=2, dtype=2, ndim=1, bpb=8 bytes=4369560d
Writing block 54 (SLEN), n=3572, ptype=1, dtype=0, ndim=6, bpb=4 bytes=85728d
Writing block 55 (STEN), n=3572, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 56 (SKEN), n=3572, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 57 (SUEN), n=3572, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 58 (SUIT), n=3572, ptype=1, dtype=1, ndim=9, bpb=4 bytes=128592d
Writing block 59 (BHMA), n=3572, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 60 (BHMD), n=3572, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 61 (SVD ), n=3572, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 62 (SVDH), n=3572, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 63 (HMPR), n=3572, ptype=1, dtype=1, ndim=6, bpb=4 bytes=85728d
Writing block 64 (SSFR), n=3572, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 65 (SSA ), n=3572, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 66 (SSBZ), n=3572, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 67 (SSIM), n=3572, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 68 (SSPI), n=3572, ptype=4, dtype=1, ndim=3, bpb=4 bytes=42864d
Writing block 69 (GSPI), n=3572, ptype=1, dtype=1, ndim=3, bpb=4 bytes=42864d
Writing block 70 (FSPI), n=3572, ptype=5, dtype=1, ndim=3, bpb=4 bytes=42864d
Writing block 71 (SFM ), n=3572, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 72 (SFMT), n=3572, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 73 (SFME), n=3572, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 74 (SFAE), n=3572, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 75 (SFKE), n=3572, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 76 (SFTE), n=3572, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 77 (SMWP), n=3572, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 78 (SMM ), n=3572, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 79 (SMMS), n=3572, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 80 (SFZ ), n=3572, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 81 (SFZS), n=3572, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 82 (SSIA), n=3572, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 83 (SIAS), n=3572, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 84 (SMET), n=3572, ptype=5, dtype=1, ndim=9, bpb=4 bytes=128592d
Writing block 85 (SMTS), n=3572, ptype=5, dtype=1, ndim=9, bpb=4 bytes=128592d
Writing block 86 (MF1 ), n=3572, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 87 (MeF1), n=3572, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 88 (MF  ), n=3572, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 89 (MeF2), n=3572, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 90 (MFA ), n=3572, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 91 (MeFA), n=3572, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 92 (NSPI), n=3572, ptype=6, dtype=1, ndim=3, bpb=4 bytes=42864d
Writing block 93 (NFM ), n=3572, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 94 (NFMT), n=3572, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 95 (NFME), n=3572, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 96 (NFAE), n=3572, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 97 (NFKE), n=3572, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 98 (NFTE), n=3572, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 99 (SMWP), n=3572, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 100 (SMM ), n=3572, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 101 (SMMS), n=3572, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 102 (SSIA), n=3572, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 103 (SIAS), n=3572, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 104 (SMET), n=3572, ptype=6, dtype=1, ndim=9, bpb=4 bytes=128592d
Writing block 105 (SMTS), n=3572, ptype=6, dtype=1, ndim=9, bpb=4 bytes=128592d
Writing block 106 (MF1 ), n=3572, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 107 (MeF1), n=3572, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 108 (MF2 ), n=3572, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 109 (MeF2), n=3572, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 110 (MFA ), n=3572, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 111 (MeFA), n=3572, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 112 (SM  ), n=3572, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 113 (SFKE), n=3572, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 114 (SFAE), n=3572, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 115 (SMWP), n=3572, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 116 (SMM ), n=3572, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 117 (SMMS), n=3572, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 118 (SSIA), n=3572, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 119 (SIAS), n=3572, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 120 (SMET), n=3572, ptype=4, dtype=1, ndim=9, bpb=4 bytes=128592d
Writing block 121 (SMTS), n=3572, ptype=4, dtype=1, ndim=9, bpb=4 bytes=128592d
Writing block 122 (MF1 ), n=3572, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 123 (MeF1), n=3572, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 124 (MF2 ), n=3572, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 125 (MeF2), n=3572, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 126 (MFA ), n=3572, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 127 (MeFA), n=3572, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14288d
Writing block 128 (MMe5), n=825, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3300d
Writing block 129 (RMe5), n=825, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3300d
Writing block 130 (MCr5), n=825, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3300d
Writing block 131 (RCr5), n=825, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3300d
Writing block 132 (MMe2), n=825, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3300d
Writing block 133 (RMe2), n=825, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3300d
Writing block 134 (MCr2), n=825, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3300d
Writing block 135 (RCr2), n=825, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3300d
Writing block 136 (MAPT), n=3572, ptype=7, dtype=1, ndim=60, bpb=4 bytes=857280d
Writing block 137 (SAPT), n=3572, ptype=8, dtype=1, ndim=10, bpb=4 bytes=142880d
Writing block 138 (VAPT), n=3572, ptype=9, dtype=1, ndim=10, bpb=4 bytes=142880d
Writing block 139 (BEGY), n=546195, ptype=2, dtype=1, ndim=1, bpb=4 bytes=2184780d
Subgroup catalogues saved. took = 6.60655 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 6.899011e-01
 eagle_ph_key_ort: type= 2 timed by volker 6.839991e-02
 eagle_ph_key_ort: type= 3 timed by volker 5.419302e-02
 eagle_ph_key_ort: type= 4 timed by volker 5.419302e-02
 eagle_ph_key_ort: type= 5 timed by volker 5.419302e-02
 eagle_ph_key_ort: timing parallel sort = 8.224990e-01
 eagle_fetch_elements: we are using 1454448633 bytes of memory, FreeBytes= 1818060792

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 2216.16 Mbyte (on task=0), Smallest = 1319.66 Mbyte, Average = 1349.21 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0147    1203.0287  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5325    1227.5612  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8876    1268.4488  fof_fof()/fof.c/337
   0 2975 0             Group      1.2285    1269.6773  fof_fof()/fof.c/380
   0 2976 0          SubGroup    921.9773    2191.6546  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5075    2216.1621  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1704709 number of bytes = 545506880

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3602.91 Mbyte (on task=0), Smallest = 2706.26 Mbyte, Average = 2736.12 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0147    1203.0287  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5325    1227.5612  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8876    1268.4488  fof_fof()/fof.c/337
   0 2975 0             Group      1.2285    1269.6773  fof_fof()/fof.c/380
   0 2976 0          SubGroup    921.9773    2191.6546  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5075    2216.1621  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      6.5030    2222.6651  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      6.5030    2229.1680  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      6.5030    2235.6710  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    520.2359    2755.9069  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    520.2359    3276.1428  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    326.7664    3602.9091  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.475044e+00
 eagle_fetch_elements: we are using 1454448633 bytes of memory, FreeBytes= 1818060792
 eagle_fetch_elements: max_bytes= 504, max_elements= 1425930 number of bytes = 718668720
 eagle_ph_key_ort: timing parallel SphP exchange = 1.651049e-03
 eagle_fetch_elements: we are using 1454448633 bytes of memory, FreeBytes= 1818060792
 eagle_fetch_elements: max_bytes= 384, max_elements= 1864677 number of bytes = 716035968
 eagle_ph_key_ort: timing parallel MetP exchange = 4.711151e-04
 eagle_fetch_elements: we are using 1454448633 bytes of memory, FreeBytes= 1818060792
 eagle_fetch_elements: max_bytes= 256, max_elements= 2775665 number of bytes = 710570240
 eagle_ph_key_ort: timing parallel BHP exchange = 4.630089e-04
Sorting particle-data by peano-hilbert key took = 3.67953 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1454448633 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1704709 number of bytes= 545506880
 eagle_ph_restore: timing parallel P exchange = 2.362053e+00
 eagle_send_elements: we are using 1454448633 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1425930 number of bytes= 718668720
 eagle_ph_restore: timing parallel SphP exchange = 5.249977e-04
 eagle_send_elements: we are using 1454448633 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1864677 number of bytes= 716035968
 eagle_ph_restore: timing parallel MetP exchange = 7.820129e-04
 eagle_send_elements: we are using 1454448633 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 2775665 number of bytes= 710570240
 eagle_ph_restore: timing parallel BHP exchange = 6.129742e-04
Restoring original order after ph key sorting took = 2.38031 sec

finished writing particle file...

Finished with SUBFIND.  (total time=3506.35 sec)

Finished computing FoF groups.  (presently allocated=1203.03 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=181409
After=201681
NTopleaves= 176471  NTopnodes=201681 (space for 244687)
gravity work-load balance=1.00053   memory-balance=1.00053   SPH work-load balance=0
iter=0 exchange of 0273219891 particles (ret=0)
domain decomposition done. (took 3.90553 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.96866 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
task 16: endrun called with an error level of 124


task 16: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 128: endrun called with an error level of 124


task 128: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 160: endrun called with an error level of 124


task 160: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
task 176: endrun called with an error level of 124


  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
task 176: endrun called with an error level of 124


HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
task 192: endrun called with an error level of 124


task 192: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
Finished FOF, total time doing fof/subfind = 3550.61 s
task 0: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
task 0: endrun called with an error level of 124


  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.70 Mb (on task=112), Smallest =   62646.51 Mb (on task=0), Average =   62686.69 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1885.55 Mb (on task=0), Smallest =    1798.36 Mb (on task=112), Average =    1845.39 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16339.44 Mb (on task=112), Average =   16351.70 Mb
AllocMem:	 Largest =    1885.55 Mb (on task=0), Smallest =    1798.36 Mb (on task=112), Average =    1845.39 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_016_z000p543/snap_016_z000p543.0.hdf5' on task=0 (contains 17485062 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  17099998  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     21690  (tot=     0000303834) masstab=0
Type 3 (bulge):   363374  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.652007

Setting next time for line of sight file to Time_next= 0.651922

Setting next time for snipshot file to Time_next= 0.655545

Setting next time for fof output to Time_next= 0.655545
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.16492 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=193961
After=199505
NTopleaves= 174567  NTopnodes=199505 (space for 244687)
gravity work-load balance=1.00031   memory-balance=1.00031   SPH work-load balance=0
iter=0 exchange of 0273081878 particles (ret=0)
domain decomposition done. (took 10.3118 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.06827 MByte in top-level domain structure

Allocated 503.393 MByte for BH-tree, and 0.66592 Mbyte for top-leaves.  (presently allocted 1706.97 MB)

Begin Ngb-tree construction.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1753.14 Mbyte (on task=42), Smallest = 1753.08 Mbyte, Average = 1753.13 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  42 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
  42 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
  42 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
  42 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
  42 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
  42 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
  42 2972 0          TopNodes      9.8937    1202.9087  domain_allocate()/domain.c/570
  42 2973 0   DomainNodeIndex      0.6659    1203.5746  force_treeallocate()/forcetree.c/4800
  42 2974 0        Nodes_base    258.5592    1462.1338  force_treeallocate()/forcetree.c/4803
  42 2975 0     Extnodes_base    215.4660    1677.5998  force_treeallocate()/forcetree.c/4811
  42 2976 0          Nextnode     15.0643    1692.6641  force_treeallocate()/forcetree.c/4820
  42 2977 0            Father     14.3032    1706.9673  force_treeallocate()/forcetree.c/4827
  42 2978 0           Ngblist      4.0879    1711.0552  density()/density.c/690
  42 2979 0              Left      8.1758    1719.2311  density()/density.c/692
  42 2980 0             Right      8.1758    1727.4069  density()/density.c/693
  42 2981 0    DataIndexTable      7.0175    1734.4244  density()/density.c/738
  42 2982 0      DataNodeList     18.7134    1753.1379  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.540.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.615.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.97 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=182385
After=202385
NTopleaves= 177087  NTopnodes=202385 (space for 244687)
gravity work-load balance=1.00051   memory-balance=1.00051   SPH work-load balance=0
iter=0 exchange of 0273090473 particles (ret=0)
domain decomposition done. (took 3.79415 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.93643 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1203.05 MB)
Tree construction.

Start linking particles (presently allocated=1756.67 MB)
links on local processor done (took 6.70803 sec).
Marked=0055509490 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1858.28 MB) 
have done 0001008079 cross links (processed 0055509490, took 3.66772 sec)
have done 0000435867 cross links (processed 0042046828, took 3.54451 sec)
have done 0000305539 cross links (processed 0034849158, took 3.02484 sec)
have done 0000204576 cross links (processed 0024230323, took 2.49511 sec)
have done 0000132052 cross links (processed 0017239767, took 2.21223 sec)
have done 0000086467 cross links (processed 0011651628, took 2.7311 sec)
have done 0000056555 cross links (processed 0006949291, took 1.55068 sec)
have done 0000038496 cross links (processed 0004094806, took 0.765098 sec)
have done 0000023400 cross links (processed 0003240906, took 1.72805 sec)
have done 0000013451 cross links (processed 0001345250, took 0.724154 sec)
have done 0000007323 cross links (processed 0000392233, took 0.221383 sec)
have done 0000003733 cross links (processed 0000189343, took 0.205596 sec)
have done 0000001701 cross links (processed 0000034303, took 0.0536032 sec)
have done 0000001018 cross links (processed 0000051549, took 0.0989332 sec)
have done 0000000499 cross links (processed 0000010299, took 0.050807 sec)
have done 0000000229 cross links (processed 0000004369, took 0.0457242 sec)
have done 0000000104 cross links (processed 0000001844, took 0.0450649 sec)
have done 0000000028 cross links (processed 0000000583, took 0.044632 sec)
have done 0000000010 cross links (processed 0000000142, took 0.044667 sec)
have done 0000000004 cross links (processed 0000000100, took 0.0443668 sec)
have done 0000000001 cross links (processed 0000000017, took 0.0445709 sec)
have done 0000000000 cross links (processed 0000000002, took 0.044446 sec)
Local groups found.

group finding took = 30.2046 sec
Start finding nearest dm-particle (presently allocated=1756.67 MB)
still finding nearest... (presently allocated=1846.13 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.110232 sec
compiling local group data and catalogue took = 0.626956 sec

Total number of groups with at least 32 particles: 208024
Largest group has 9143658 particles.
Total number of particles in groups: 0132327194

group properties are now allocated.. (presently allocated=1269.53 MB)
computation of group properties took = 0.0697551 sec
start global sorting of group catalogues number 16
LargestGroup = 7197.606016; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0519111 sec
Group catalogues globally sorted. took = 0.83208 sec
starting saving of group catalogue number 16
data//groups_016_z000p543
Group catalogues number 16 saved. took = 2.87446 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.716787 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.268739 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.711034 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0189595228 particles. (took 19.8717 sec)
ngb iteration 2: need to repeat for 0147868929 particles. (took 9.8231 sec)
ngb iteration 3: need to repeat for 0128699020 particles. (took 7.04726 sec)
ngb iteration 4: need to repeat for 0116767674 particles. (took 5.74828 sec)
ngb iteration 5: need to repeat for 0104420964 particles. (took 5.00519 sec)
ngb iteration 6: need to repeat for 0087459065 particles. (took 4.45835 sec)
ngb iteration 7: need to repeat for 0066529054 particles. (took 3.85547 sec)
ngb iteration 8: need to repeat for 0046021877 particles. (took 3.0977 sec)
ngb iteration 9: need to repeat for 0029510940 particles. (took 2.28684 sec)
ngb iteration 10: need to repeat for 0017948903 particles. (took 1.58586 sec)
ngb iteration 11: need to repeat for 0010557645 particles. (took 1.03863 sec)
ngb iteration 12: need to repeat for 0006102464 particles. (took 0.639005 sec)
ngb iteration 13: need to repeat for 0003493159 particles. (took 0.395 sec)
ngb iteration 14: need to repeat for 0001903787 particles. (took 0.258456 sec)
ngb iteration 15: need to repeat for 0000905689 particles. (took 0.172907 sec)
ngb iteration 16: need to repeat for 0000453777 particles. (took 0.111221 sec)
ngb iteration 17: need to repeat for 0000235634 particles. (took 0.0788009 sec)
ngb iteration 18: need to repeat for 0000124603 particles. (took 0.0630081 sec)
ngb iteration 19: need to repeat for 0000065817 particles. (took 0.0535872 sec)
ngb iteration 20: need to repeat for 0000033983 particles. (took 0.0484409 sec)
ngb iteration 21: need to repeat for 0000017096 particles. (took 0.0456059 sec)
ngb iteration 22: need to repeat for 0000008323 particles. (took 0.043529 sec)
ngb iteration 23: need to repeat for 0000003872 particles. (took 0.0421441 sec)
ngb iteration 24: need to repeat for 0000001752 particles. (took 0.0414619 sec)
ngb iteration 25: need to repeat for 0000000767 particles. (took 0.0404539 sec)
ngb iteration 26: need to repeat for 0000000318 particles. (took 0.040242 sec)
ngb iteration 27: need to repeat for 0000000118 particles. (took 0.0402489 sec)
ngb iteration 28: need to repeat for 0000000051 particles. (took 0.040369 sec)
ngb iteration 29: need to repeat for 0000000018 particles. (took 0.040468 sec)
ngb iteration 30: need to repeat for 0000000006 particles. (took 0.040082 sec)
ngb iteration 31: need to repeat for 0000000002 particles. (took 0.040005 sec)
ngb iteration 32: need to repeat for 0000000001 particles. (took 0.0400681 sec)
ngb iteration 33: need to repeat for 0000000001 particles. (took 0.040226 sec)
final operations ... 
density and smoothing length for species 1 took 66.5352 sec
Tree construction.
tree build took 0.718563 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.269535 sec
Tree construction.
tree build took 0.713176 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.270085 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.172653 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 2.02597 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.711589 sec
density() of species 1 took 0 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.173034 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.99698 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.172496 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 2.00466 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.96721 sec
saving densities took 2.86378 sec

Number of FOF halos treated with collective SubFind code = 5
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 208019 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 19872 - 59882700 

subfind_exchange()() took 1.69482 sec

collectively doing halo 1, num=16
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2288.85 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2348.4 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 2348.4 Mbyte (on task=0), Smallest = 1354.25 Mbyte, Average = 1385.27 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0365    1203.0505  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5307    1227.5812  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8845    1268.4657  fof_fof()/fof.c/337
   0 2975 0             Group      1.0635    1269.5293  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1019.3199    2288.8491  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    2301.1084  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    2329.7148  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    2330.6600  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    2331.5934  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    2332.5268  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    2333.4602  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    2334.3975  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    2335.3348  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    2348.4025  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=134249
After=167393
NTopleaves= 146469  NTopnodes=167393 (space for 244687)
gravity work-load balance=1.0006   memory-balance=1.0006   SPH work-load balance=0
iter=0 exchange of 0009104769 particles (ret=0)
domain decomposition done. (took 0.980797 sec)
Freed 3.53824 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 2795.72 Mbyte (on task=0), Smallest = 1801.57 Mbyte, Average = 1832.58 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0365    1203.0505  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5307    1227.5812  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8845    1268.4657  fof_fof()/fof.c/337
   0 2975 0             Group      1.0635    1269.5293  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1019.3199    2288.8491  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.3012    2297.2753  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5587    2297.8341  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    255.6193    2553.4533  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base    213.0161    2766.4694  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9418    2781.4111  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    2795.7144  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.42993 sec  (presently allocated=2795.71 MB)
force_treebuild() took 1.76458 sec (presently allocated=2795.71 MB)
Start find_linkngb (35590 particles on task=0)
find linkngb iteration 1: need to repeat for 0008868750 particles. (took 0.709116 sec)
find linkngb iteration 2: need to repeat for 0008256267 particles. (took 0.488913 sec)
find linkngb iteration 3: need to repeat for 0007880274 particles. (took 0.331002 sec)
find linkngb iteration 4: need to repeat for 0006923709 particles. (took 0.37676 sec)
find linkngb iteration 5: need to repeat for 0005760480 particles. (took 0.321157 sec)
find linkngb iteration 6: need to repeat for 0004171256 particles. (took 0.263858 sec)
find linkngb iteration 7: need to repeat for 0002623240 particles. (took 0.207725 sec)
find linkngb iteration 8: need to repeat for 0001492944 particles. (took 0.121505 sec)
find linkngb iteration 9: need to repeat for 0000799065 particles. (took 0.075871 sec)
find linkngb iteration 10: need to repeat for 0000413178 particles. (took 0.046397 sec)
find linkngb iteration 11: need to repeat for 0000209816 particles. (took 0.0295639 sec)
find linkngb iteration 12: need to repeat for 0000044283 particles. (took 0.0194378 sec)
find linkngb iteration 13: need to repeat for 0000000799 particles. (took 0.00973916 sec)
find linkngb iteration 14: need to repeat for 0000000205 particles. (took 0.000784874 sec)
find linkngb iteration 15: need to repeat for 0000000063 particles. (took 0.000494957 sec)
find linkngb iteration 16: need to repeat for 0000000016 particles. (took 0.000431061 sec)
find linkngb iteration 17: need to repeat for 0000000005 particles. (took 0.000406981 sec)
find linkngb iteration 18: need to repeat for 0000000001 particles. (took 0.000457048 sec)
find_linkngb() took 3.00503 sec
Start finding nearest two (35590 particles on task=0)
find_nearesttwo() took 0.5662 sec (presently allocated=2798.43 MB)
parallel sort of densities done. took 0.0647981 sec
building distributed linked list. (presently allocated 2798.08 MB)
identification of primary candidates took 230.635 sec
adding background as candidate took 0.159048 sec
establishing of rank order took 71.7428 sec  (p=9143658, grouplen=9143658) presently allocated 2798.08 MB

total number of subhalo candidates=42254

number of subhalo candidates that can be done independently=37071.
(Largest size is 2859, finding them took 0.0114789 sec)
particles are marked (took 51.1835)
independent subhalos are assembled on individual CPUs for unbinding (0.184403 sec, (presently allocated=2798.08 MB)
unbinding of independent ones took 0.069056 sec
particles have returned to their original processor (0.247183 sec, presently allocated 2798.08 MB)

number of subhalo candidates that can be done independently=4716.
(Largest size is 16188, finding them took 0.916179 sec)
particles are marked (took 33.7884)
independent subhalos are assembled on individual CPUs for unbinding (0.175909 sec, (presently allocated=2798.08 MB)
unbinding of independent ones took 0.481412 sec
particles have returned to their original processor (0.241025 sec, presently allocated 2798.08 MB)

number of subhalo candidates that can be done independently=428.
(Largest size is 121076, finding them took 0.909742 sec)
particles are marked (took 29.9445)
independent subhalos are assembled on individual CPUs for unbinding (0.184305 sec, (presently allocated=2798.08 MB)
unbinding of independent ones took 4.35762 sec
particles have returned to their original processor (0.255856 sec, presently allocated 2798.08 MB)

number of subhalo candidates that can be done independently=35.
(Largest size is 112535, finding them took 0.905944 sec)
particles are marked (took 25.5581)
independent subhalos are assembled on individual CPUs for unbinding (0.165122 sec, (presently allocated=2798.08 MB)
unbinding of independent ones took 5.28493 sec
particles have returned to their original processor (0.234407 sec, presently allocated 2798.08 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 367836, finding them took 0.499353 sec)
particles are marked (took 19.199)
independent subhalos are assembled on individual CPUs for unbinding (0.149065 sec, (presently allocated=2798.08 MB)
unbinding of independent ones took 0.0200601 sec
particles have returned to their original processor (0.213053 sec, presently allocated 2798.08 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 367836, finding them took 0.451506 sec)
particles are marked (took 19.1668)
independent subhalos are assembled on individual CPUs for unbinding (0.149744 sec, (presently allocated=2798.08 MB)
unbinding of independent ones took 0.0850451 sec
particles have returned to their original processor (0.214799 sec, presently allocated 2798.08 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 367836, finding them took 0.445087 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=367836 ... maximum alloacted 2798.21 MB
took 11.161 sec
collective unbinding of nr=1 (2) of length=9143658 ... maximum alloacted 2798.21 MB
took 157.69 sec

the collective unbinding of remaining halos took 187.381 sec

found 3004 bound substructures in FoF group of length 9143658
determination of parent subhalo took 0.0531471 sec (presently allocated 2798.21 MB)
determining substructure properties took 184.495 sec (presently allocated 2798.21 MB)

collectively doing halo 2, num=16
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2288.85 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2348.4 MB)
Before=134425
After=166537
NTopleaves= 145720  NTopnodes=166537 (space for 244687)
gravity work-load balance=1.00041   memory-balance=1.00041   SPH work-load balance=0
iter=0 exchange of 0007800698 particles (ret=0)
domain decomposition done. (took 0.976656 sec)
Freed 3.57742 MByte in top-level domain structure
coldomain_Decomposition() took 1.41576 sec  (presently allocated=2795.52 MB)
force_treebuild() took 1.79019 sec (presently allocated=2795.52 MB)
Start find_linkngb (30620 particles on task=0)
find linkngb iteration 1: need to repeat for 0007675704 particles. (took 0.642648 sec)
find linkngb iteration 2: need to repeat for 0007232494 particles. (took 0.435643 sec)
find linkngb iteration 3: need to repeat for 0006906169 particles. (took 0.314558 sec)
find linkngb iteration 4: need to repeat for 0006085131 particles. (took 0.328279 sec)
find linkngb iteration 5: need to repeat for 0005067735 particles. (took 0.278557 sec)
find linkngb iteration 6: need to repeat for 0003673036 particles. (took 0.228725 sec)
find linkngb iteration 7: need to repeat for 0002309819 particles. (took 0.165107 sec)
find linkngb iteration 8: need to repeat for 0001312157 particles. (took 0.106995 sec)
find linkngb iteration 9: need to repeat for 0000703060 particles. (took 0.066988 sec)
find linkngb iteration 10: need to repeat for 0000364902 particles. (took 0.041461 sec)
find linkngb iteration 11: need to repeat for 0000184917 particles. (took 0.027117 sec)
find linkngb iteration 12: need to repeat for 0000039084 particles. (took 0.0177109 sec)
find linkngb iteration 13: need to repeat for 0000000665 particles. (took 0.009372 sec)
find linkngb iteration 14: need to repeat for 0000000187 particles. (took 0.000762939 sec)
find linkngb iteration 15: need to repeat for 0000000057 particles. (took 0.000458002 sec)
find linkngb iteration 16: need to repeat for 0000000018 particles. (took 0.000415087 sec)
find linkngb iteration 17: need to repeat for 0000000004 particles. (took 0.000403881 sec)
find linkngb iteration 18: need to repeat for 0000000001 particles. (took 0.000393152 sec)
find linkngb iteration 19: need to repeat for 0000000001 particles. (took 0.00039196 sec)
find_linkngb() took 2.66697 sec
Start finding nearest two (30620 particles on task=0)
find_nearesttwo() took 0.49955 sec (presently allocated=2797.86 MB)
parallel sort of densities done. took 0.0591679 sec
building distributed linked list. (presently allocated 2797.55 MB)
identification of primary candidates took 199.505 sec
adding background as candidate took 0.159515 sec
establishing of rank order took 62.1613 sec  (p=7835778, grouplen=7835778) presently allocated 2797.55 MB

total number of subhalo candidates=37316

number of subhalo candidates that can be done independently=32749.
(Largest size is 2800, finding them took 0.00994492 sec)
particles are marked (took 44.7289)
independent subhalos are assembled on individual CPUs for unbinding (0.181626 sec, (presently allocated=2797.55 MB)
unbinding of independent ones took 0.0680661 sec
particles have returned to their original processor (0.24099 sec, presently allocated 2797.55 MB)

number of subhalo candidates that can be done independently=4204.
(Largest size is 12035, finding them took 0.933503 sec)
particles are marked (took 29.5235)
independent subhalos are assembled on individual CPUs for unbinding (0.173268 sec, (presently allocated=2797.55 MB)
unbinding of independent ones took 0.303774 sec
particles have returned to their original processor (0.236067 sec, presently allocated 2797.55 MB)

number of subhalo candidates that can be done independently=331.
(Largest size is 44986, finding them took 0.932074 sec)
particles are marked (took 22.0172)
independent subhalos are assembled on individual CPUs for unbinding (0.161181 sec, (presently allocated=2797.55 MB)
unbinding of independent ones took 0.929971 sec
particles have returned to their original processor (0.22672 sec, presently allocated 2797.55 MB)

number of subhalo candidates that can be done independently=27.
(Largest size is 264643, finding them took 1.0694 sec)
particles are marked (took 23.1544)
independent subhalos are assembled on individual CPUs for unbinding (0.166182 sec, (presently allocated=2797.55 MB)
unbinding of independent ones took 3.90207 sec
particles have returned to their original processor (0.237183 sec, presently allocated 2797.55 MB)

number of subhalo candidates that can be done independently=3.
(Largest size is 264643, finding them took 0.496159 sec)
particles are marked (took 17.9378)
independent subhalos are assembled on individual CPUs for unbinding (0.155963 sec, (presently allocated=2797.55 MB)
unbinding of independent ones took 1.33305 sec
particles have returned to their original processor (0.225822 sec, presently allocated 2797.55 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 264643, finding them took 0.498508 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=264643 ... maximum alloacted 2797.67 MB
took 6.55888 sec
collective unbinding of nr=1 (2) of length=7835778 ... maximum alloacted 2797.67 MB
took 133.873 sec

the collective unbinding of remaining halos took 156.733 sec

found 2216 bound substructures in FoF group of length 7835778
determination of parent subhalo took 0.0424159 sec (presently allocated 2797.67 MB)
determining substructure properties took 151.926 sec (presently allocated 2797.67 MB)

collectively doing halo 3, num=16
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2288.85 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2348.4 MB)
Before=142569
After=170225
NTopleaves= 148947  NTopnodes=170225 (space for 244687)
gravity work-load balance=1.00058   memory-balance=1.00058   SPH work-load balance=0
iter=0 exchange of 0006647969 particles (ret=0)
domain decomposition done. (took 0.953634 sec)
Freed 3.4086 MByte in top-level domain structure
coldomain_Decomposition() took 1.39113 sec  (presently allocated=2796.35 MB)
force_treebuild() took 1.75096 sec (presently allocated=2796.35 MB)
Start find_linkngb (26089 particles on task=0)
find linkngb iteration 1: need to repeat for 0006567617 particles. (took 0.501131 sec)
find linkngb iteration 2: need to repeat for 0006236540 particles. (took 0.336346 sec)
find linkngb iteration 3: need to repeat for 0005956730 particles. (took 0.22922 sec)
find linkngb iteration 4: need to repeat for 0005267637 particles. (took 0.262281 sec)
find linkngb iteration 5: need to repeat for 0004392128 particles. (took 0.223433 sec)
find linkngb iteration 6: need to repeat for 0003188664 particles. (took 0.184514 sec)
find linkngb iteration 7: need to repeat for 0002006170 particles. (took 0.134646 sec)
find linkngb iteration 8: need to repeat for 0001141283 particles. (took 0.0892532 sec)
find linkngb iteration 9: need to repeat for 0000611325 particles. (took 0.056777 sec)
find linkngb iteration 10: need to repeat for 0000316488 particles. (took 0.0362082 sec)
find linkngb iteration 11: need to repeat for 0000160892 particles. (took 0.023926 sec)
find linkngb iteration 12: need to repeat for 0000034036 particles. (took 0.0163701 sec)
find linkngb iteration 13: need to repeat for 0000000778 particles. (took 0.00878119 sec)
find linkngb iteration 14: need to repeat for 0000000204 particles. (took 0.000683784 sec)
find linkngb iteration 15: need to repeat for 0000000052 particles. (took 0.000442982 sec)
find linkngb iteration 16: need to repeat for 0000000015 particles. (took 0.00041008 sec)
find linkngb iteration 17: need to repeat for 0000000002 particles. (took 0.000377893 sec)
find_linkngb() took 2.10574 sec
Start finding nearest two (26089 particles on task=0)
find_nearesttwo() took 0.430548 sec (presently allocated=2798.34 MB)
parallel sort of densities done. took 0.0817649 sec
building distributed linked list. (presently allocated 2798.08 MB)
identification of primary candidates took 179.357 sec
adding background as candidate took 0.159264 sec
establishing of rank order took 53.4259 sec  (p=6674901, grouplen=6674901) presently allocated 2798.08 MB

total number of subhalo candidates=28175

number of subhalo candidates that can be done independently=25176.
(Largest size is 2005, finding them took 0.00780392 sec)
particles are marked (took 34.9009)
independent subhalos are assembled on individual CPUs for unbinding (0.170308 sec, (presently allocated=2798.08 MB)
unbinding of independent ones took 0.0489361 sec
particles have returned to their original processor (0.248045 sec, presently allocated 2798.08 MB)

number of subhalo candidates that can be done independently=2718.
(Largest size is 11415, finding them took 0.901567 sec)
particles are marked (took 22.7763)
independent subhalos are assembled on individual CPUs for unbinding (0.167447 sec, (presently allocated=2798.08 MB)
unbinding of independent ones took 0.278095 sec
particles have returned to their original processor (0.239465 sec, presently allocated 2798.08 MB)

number of subhalo candidates that can be done independently=248.
(Largest size is 57183, finding them took 0.941737 sec)
particles are marked (took 20.4373)
independent subhalos are assembled on individual CPUs for unbinding (0.174927 sec, (presently allocated=2798.08 MB)
unbinding of independent ones took 1.88977 sec
particles have returned to their original processor (0.24492 sec, presently allocated 2798.08 MB)

number of subhalo candidates that can be done independently=27.
(Largest size is 295315, finding them took 0.794414 sec)
particles are marked (took 16.4495)
independent subhalos are assembled on individual CPUs for unbinding (0.159162 sec, (presently allocated=2798.08 MB)
unbinding of independent ones took 1.65217 sec
particles have returned to their original processor (0.227955 sec, presently allocated 2798.08 MB)

number of subhalo candidates that can be done independently=2.
(Largest size is 295315, finding them took 0.492261 sec)
particles are marked (took 13.0851)
independent subhalos are assembled on individual CPUs for unbinding (0.15188 sec, (presently allocated=2798.08 MB)
unbinding of independent ones took 0.216084 sec
particles have returned to their original processor (0.218203 sec, presently allocated 2798.08 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 295315, finding them took 0.469644 sec)
too few, I do the rest of 4 collectively

collective unbinding of nr=0 (4) of length=295315 ... maximum alloacted 2798.18 MB
took 6.22777 sec
collective unbinding of nr=1 (4) of length=984081 ... maximum alloacted 2798.18 MB
took 15.3061 sec
collective unbinding of nr=2 (4) of length=264290 ... maximum alloacted 2798.18 MB
took 8.49511 sec
collective unbinding of nr=3 (4) of length=6674901 ... maximum alloacted 2798.18 MB
took 135.388 sec

the collective unbinding of remaining halos took 177.752 sec

found 2700 bound substructures in FoF group of length 6674901
determination of parent subhalo took 0.0432589 sec (presently allocated 2798.18 MB)
determining substructure properties took 156.455 sec (presently allocated 2798.18 MB)

collectively doing halo 4, num=16
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2288.85 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2348.4 MB)
Before=144145
After=169009
NTopleaves= 147883  NTopnodes=169009 (space for 244687)
gravity work-load balance=1.00052   memory-balance=1.00052   SPH work-load balance=0
iter=0 exchange of 0004143004 particles (ret=0)
domain decomposition done. (took 0.941885 sec)
Freed 3.46426 MByte in top-level domain structure
coldomain_Decomposition() took 1.3836 sec  (presently allocated=2796.08 MB)
force_treebuild() took 1.74674 sec (presently allocated=2796.08 MB)
Start find_linkngb (16244 particles on task=0)
find linkngb iteration 1: need to repeat for 0004136677 particles. (took 0.300888 sec)
find linkngb iteration 2: need to repeat for 0004022267 particles. (took 0.196862 sec)
find linkngb iteration 3: need to repeat for 0003851612 particles. (took 0.136719 sec)
find linkngb iteration 4: need to repeat for 0003433648 particles. (took 0.154434 sec)
find linkngb iteration 5: need to repeat for 0002873068 particles. (took 0.135154 sec)
find linkngb iteration 6: need to repeat for 0002088351 particles. (took 0.11338 sec)
find linkngb iteration 7: need to repeat for 0001316392 particles. (took 0.084446 sec)
find linkngb iteration 8: need to repeat for 0000748843 particles. (took 0.057322 sec)
find linkngb iteration 9: need to repeat for 0000401282 particles. (took 0.0374 sec)
find linkngb iteration 10: need to repeat for 0000207730 particles. (took 0.0248568 sec)
find linkngb iteration 11: need to repeat for 0000105236 particles. (took 0.0179389 sec)
find linkngb iteration 12: need to repeat for 0000022638 particles. (took 0.013068 sec)
find linkngb iteration 13: need to repeat for 0000000538 particles. (took 0.00757313 sec)
find linkngb iteration 14: need to repeat for 0000000142 particles. (took 0.000586033 sec)
find linkngb iteration 15: need to repeat for 0000000044 particles. (took 0.0004282 sec)
find linkngb iteration 16: need to repeat for 0000000014 particles. (took 0.000355005 sec)
find linkngb iteration 17: need to repeat for 0000000004 particles. (took 0.000347853 sec)
find_linkngb() took 1.28264 sec
Start finding nearest two (16244 particles on task=0)
find_nearesttwo() took 0.263238 sec (presently allocated=2797.32 MB)
parallel sort of densities done. took 0.048327 sec
building distributed linked list. (presently allocated 2797.16 MB)
identification of primary candidates took 123.932 sec
adding background as candidate took 0.157194 sec
establishing of rank order took 34.1814 sec  (p=4158606, grouplen=4158606) presently allocated 2797.16 MB

total number of subhalo candidates=16089

number of subhalo candidates that can be done independently=14558.
(Largest size is 3541, finding them took 0.00470185 sec)
particles are marked (took 20.287)
independent subhalos are assembled on individual CPUs for unbinding (0.162381 sec, (presently allocated=2797.16 MB)
unbinding of independent ones took 0.079035 sec
particles have returned to their original processor (0.224261 sec, presently allocated 2797.16 MB)

number of subhalo candidates that can be done independently=1398.
(Largest size is 12034, finding them took 0.898683 sec)
particles are marked (took 12.9609)
independent subhalos are assembled on individual CPUs for unbinding (0.180118 sec, (presently allocated=2797.16 MB)
unbinding of independent ones took 0.235082 sec
particles have returned to their original processor (0.227814 sec, presently allocated 2797.16 MB)

number of subhalo candidates that can be done independently=116.
(Largest size is 102580, finding them took 1.0326 sec)
particles are marked (took 12.7892)
independent subhalos are assembled on individual CPUs for unbinding (0.167821 sec, (presently allocated=2797.16 MB)
unbinding of independent ones took 3.53159 sec
particles have returned to their original processor (0.241039 sec, presently allocated 2797.16 MB)

number of subhalo candidates that can be done independently=13.
(Largest size is 108724, finding them took 0.520372 sec)
particles are marked (took 10.3806)
independent subhalos are assembled on individual CPUs for unbinding (0.159365 sec, (presently allocated=2797.16 MB)
unbinding of independent ones took 3.74735 sec
particles have returned to their original processor (0.230246 sec, presently allocated 2797.16 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 945198, finding them took 0.499938 sec)
too big candidates, I do the rest collectively

collective unbinding of nr=0 (4) of length=945198 ... maximum alloacted 2797.22 MB
took 19.0109 sec
collective unbinding of nr=1 (4) of length=941877 ... maximum alloacted 2797.22 MB
took 22.7344 sec
collective unbinding of nr=2 (4) of length=60675 ... maximum alloacted 2797.22 MB
took 1.86636 sec
collective unbinding of nr=3 (4) of length=4158606 ... maximum alloacted 2797.22 MB
took 79.9766 sec

the collective unbinding of remaining halos took 130.593 sec

found 1588 bound substructures in FoF group of length 4158606
determination of parent subhalo took 0.0372992 sec (presently allocated 2797.22 MB)
determining substructure properties took 109.736 sec (presently allocated 2797.22 MB)

collectively doing halo 5, num=16
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2288.85 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2348.4 MB)
Before=146593
After=165625
NTopleaves= 144922  NTopnodes=165625 (space for 244687)
gravity work-load balance=1.00047   memory-balance=1.00047   SPH work-load balance=0
iter=0 exchange of 0002976141 particles (ret=0)
domain decomposition done. (took 0.917661 sec)
Freed 3.61917 MByte in top-level domain structure
coldomain_Decomposition() took 1.35945 sec  (presently allocated=2795.32 MB)
force_treebuild() took 1.75093 sec (presently allocated=2795.32 MB)
Start find_linkngb (11644 particles on task=0)
find linkngb iteration 1: need to repeat for 0002980847 particles. (took 0.215453 sec)
find linkngb iteration 2: need to repeat for 0002927596 particles. (took 0.147873 sec)
find linkngb iteration 3: need to repeat for 0002807421 particles. (took 0.100995 sec)
find linkngb iteration 4: need to repeat for 0002516817 particles. (took 0.109976 sec)
find linkngb iteration 5: need to repeat for 0002111929 particles. (took 0.0959132 sec)
find linkngb iteration 6: need to repeat for 0001537841 particles. (took 0.083185 sec)
find linkngb iteration 7: need to repeat for 0000971218 particles. (took 0.062644 sec)
find linkngb iteration 8: need to repeat for 0000552708 particles. (took 0.043956 sec)
find linkngb iteration 9: need to repeat for 0000296661 particles. (took 0.0289021 sec)
find linkngb iteration 10: need to repeat for 0000153590 particles. (took 0.01983 sec)
find linkngb iteration 11: need to repeat for 0000078217 particles. (took 0.0144041 sec)
find linkngb iteration 12: need to repeat for 0000017125 particles. (took 0.0113111 sec)
find linkngb iteration 13: need to repeat for 0000000450 particles. (took 0.00703096 sec)
find linkngb iteration 14: need to repeat for 0000000108 particles. (took 0.000550032 sec)
find linkngb iteration 15: need to repeat for 0000000030 particles. (took 0.000380039 sec)
find linkngb iteration 16: need to repeat for 0000000013 particles. (took 0.000344992 sec)
find_linkngb() took 0.94358 sec
Start finding nearest two (11644 particles on task=0)
find_nearesttwo() took 0.192615 sec (presently allocated=2796.21 MB)
parallel sort of densities done. took 0.04374 sec
building distributed linked list. (presently allocated 2796.09 MB)
identification of primary candidates took 81.5645 sec
adding background as candidate took 0.157319 sec
establishing of rank order took 25.2287 sec  (p=2987409, grouplen=2987409) presently allocated 2796.09 MB

total number of subhalo candidates=12443

number of subhalo candidates that can be done independently=11199.
(Largest size is 2158, finding them took 0.00364995 sec)
particles are marked (took 15.62)
independent subhalos are assembled on individual CPUs for unbinding (0.158975 sec, (presently allocated=2796.09 MB)
unbinding of independent ones took 0.0331681 sec
particles have returned to their original processor (0.221144 sec, presently allocated 2796.09 MB)

number of subhalo candidates that can be done independently=1152.
(Largest size is 9510, finding them took 0.898969 sec)
particles are marked (took 10.5202)
independent subhalos are assembled on individual CPUs for unbinding (0.161769 sec, (presently allocated=2796.09 MB)
unbinding of independent ones took 0.192823 sec
particles have returned to their original processor (0.227772 sec, presently allocated 2796.09 MB)

number of subhalo candidates that can be done independently=81.
(Largest size is 57218, finding them took 0.870565 sec)
particles are marked (took 8.56452)
independent subhalos are assembled on individual CPUs for unbinding (0.162068 sec, (presently allocated=2796.09 MB)
unbinding of independent ones took 1.70415 sec
particles have returned to their original processor (0.232033 sec, presently allocated 2796.09 MB)

number of subhalo candidates that can be done independently=8.
(Largest size is 456133, finding them took 0.493967 sec)
particles are marked (took 7.13084)
independent subhalos are assembled on individual CPUs for unbinding (0.15976 sec, (presently allocated=2796.09 MB)
unbinding of independent ones took 0.551438 sec
particles have returned to their original processor (0.231872 sec, presently allocated 2796.09 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 456133, finding them took 0.492184 sec)
particles are marked (took 6.5297)
independent subhalos are assembled on individual CPUs for unbinding (0.160358 sec, (presently allocated=2796.09 MB)
unbinding of independent ones took 1.3815 sec
particles have returned to their original processor (0.236949 sec, presently allocated 2796.09 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 456133, finding them took 0.492115 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=456133 ... maximum alloacted 2796.13 MB
took 9.98097 sec
collective unbinding of nr=1 (2) of length=2987409 ... maximum alloacted 2796.13 MB
took 63.6463 sec

the collective unbinding of remaining halos took 79.0744 sec

found 1152 bound substructures in FoF group of length 2987409
determination of parent subhalo took 0.035984 sec (presently allocated 2796.13 MB)
determining substructure properties took 68.2438 sec (presently allocated 2796.13 MB)
processing of collective halos took 3129.6 sec
sort of local particles()() took 0.595216 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 795.305 sec

Task 252: testing particles ...
Task 190: testing particles ...
Task 1: testing particles ...
Task 159: testing particles ...
Task 164: testing particles ...
Task 172: testing particles ...
Task 2: testing particles ...
Task 198: testing particles ...
Task 241: testing particles ...
Task 237: testing particles ...
Task 220: testing particles ...
Task 121: testing particles ...
Task 176: testing particles ...
Task 202: testing particles ...
Task 246: testing particles ...
Task 148: testing particles ...
Task 175: testing particles ...
Task 191: testing particles ...
Task 251: testing particles ...
Task 234: testing particles ...
Task 210: testing particles ...
Task 229: testing particles ...
Task 255: testing particles ...
Task 244: testing particles ...
Task 133: testing particles ...
Task 205: testing particles ...
Task 112: testing particles ...
Task 144: testing particles ...
Task 230: testing particles ...
Task 211: testing particles ...
Task 254: testing particles ...
unsorting of local particles()() took 0.522207 sec
Task 0: testing particles ...
Task 219: testing particles ...
Task 212: testing particles ...
Task 227: testing particles ...
Task 221: testing particles ...
Task 194: testing particles ...
Task 3: testing particles ...
Task 236: testing particles ...
Task 156: testing particles ...
Task 138: testing particles ...
Task 127: testing particles ...
Task 151: testing particles ...
Task 141: testing particles ...
Task 181: testing particles ...
Task 168: testing particles ...
Task 173: testing particles ...
Task 154: testing particles ...
Task 233: testing particles ...
Task 183: testing particles ...
Task 225: testing particles ...
Task 201: testing particles ...
Task 231: testing particles ...
Task 115: testing particles ...
Task 109: testing particles ...
Task 238: testing particles ...
Task 155: testing particles ...
Task 150: testing particles ...
Task 98: testing particles ...
Task 250: testing particles ...
Task 253: testing particles ...
Task 182: testing particles ...
Task 167: testing particles ...
Task 228: testing particles ...
Task 177: testing particles ...
Task 196: testing particles ...
Task 117: testing particles ...
Task 140: testing particles ...
Task 249: testing particles ...
Task 203: testing particles ...
Task 96: testing particles ...
Task 161: testing particles ...
Task 130: testing particles ...
Task 245: testing particles ...
Task 143: testing particles ...
Task 199: testing particles ...
Task 209: testing particles ...
Task 105: testing particles ...
Task 169: testing particles ...
Task 208: testing particles ...
Task 207: testing particles ...
Task 184: testing particles ...
Task 188: testing particles ...
Task 102: testing particles ...
Task 222: testing particles ...
Task 106: testing particles ...
Task 165: testing particles ...
Task 213: testing particles ...
Task 147: testing particles ...
Task 134: testing particles ...
Task 111: testing particles ...
Task 170: testing particles ...
Task 162: testing particles ...
Task 122: testing particles ...
Task 186: testing particles ...
Task 142: testing particles ...
Task 239: testing particles ...
Task 135: testing particles ...
Task 223: testing particles ...
Task 217: testing particles ...
Task 4: testing particles ...
Task 74: testing particles ...
Task 247: testing particles ...
Task 90: testing particles ...
Task 101: testing particles ...
Task 214: testing particles ...
Task 124: testing particles ...
Task 195: testing particles ...
Task 128: testing particles ...
Task 116: testing particles ...
Task 158: testing particles ...
Task 163: testing particles ...
Task 243: testing particles ...
Task 204: testing particles ...
Task 123: testing particles ...
Task 218: testing particles ...
Task 200: testing particles ...
Task 68: testing particles ...
Task 71: testing particles ...
Task 232: testing particles ...
Task 91: testing particles ...
Task 197: testing particles ...
Task 132: testing particles ...
Task 157: testing particles ...
Task 224: testing particles ...
Task 60: testing particles ...
Task 87: testing particles ...
Task 94: testing particles ...
Task 149: testing particles ...
Task 242: testing particles ...
Task 79: testing particles ...
Task 125: testing particles ...
Task 85: testing particles ...
Task 180: testing particles ...
Task 95: testing particles ...
Task 215: testing particles ...
Task 119: testing particles ...
Task 240: testing particles ...
Task 185: testing particles ...
Task 226: testing particles ...
Task 248: testing particles ...
Task 137: testing particles ...
Task 103: testing particles ...
Task 206: testing particles ...
Task 84: testing particles ...
Task 120: testing particles ...
Task 73: testing particles ...
Task 55: testing particles ...
Task 189: testing particles ...
Task 44: testing particles ...
Task 139: testing particles ...
Task 153: testing particles ...
Task 114: testing particles ...
Task 110: testing particles ...
Task 69: testing particles ...
Task 166: testing particles ...
Task 51: testing particles ...
Task 171: testing particles ...
Task 104: testing particles ...
Task 174: testing particles ...
Task 216: testing particles ...
Task 193: testing particles ...
Task 152: testing particles ...
Task 58: testing particles ...
Task 72: testing particles ...
Task 100: testing particles ...
Task 187: testing particles ...
Task 70: testing particles ...
Task 97: testing particles ...
Task 107: testing particles ...
Task 118: testing particles ...
Task 67: testing particles ...
Task 59: testing particles ...
Task 178: testing particles ...
Task 146: testing particles ...
Task 99: testing particles ...
Task 83: testing particles ...
Task 126: testing particles ...
Task 192: testing particles ...
Task 89: testing particles ...
Task 113: testing particles ...
Task 93: testing particles ...
Task 78: testing particles ...
Task 48: testing particles ...
Task 66: testing particles ...
Task 235: testing particles ...
Task 88: testing particles ...
Task 179: testing particles ...
Task 61: testing particles ...
Task 136: testing particles ...
Task 129: testing particles ...
Task 92: testing particles ...
Task 82: testing particles ...
Task 160: testing particles ...
Task 53: testing particles ...
Task 52: testing particles ...
Task 145: testing particles ...
Task 62: testing particles ...
Task 47: testing particles ...
Task 131: testing particles ...
Task 80: testing particles ...
Task 77: testing particles ...
Task 57: testing particles ...
Task 81: testing particles ...
Task 49: testing particles ...
Task 108: testing particles ...
Task 86: testing particles ...
Task 43: testing particles ...
Task 41: testing particles ...
Task 76: testing particles ...
Task 63: testing particles ...
Task 33: testing particles ...
Task 65: testing particles ...
Task 45: testing particles ...
Task 75: testing particles ...
Task 54: testing particles ...
Task 64: testing particles ...
Task 31: testing particles ...
Task 30: testing particles ...
Task 50: testing particles ...
Task 46: testing particles ...
Task 36: testing particles ...
Task 56: testing particles ...
Task 39: testing particles ...
Task 38: testing particles ...
Task 42: testing particles ...
Task 22: testing particles ...
Task 27: testing particles ...
Task 37: testing particles ...
Task 23: testing particles ...
Task 34: testing particles ...
Task 28: testing particles ...
Task 40: testing particles ...
Task 25: testing particles ...
Task 21: testing particles ...
Task 24: testing particles ...
Task 35: testing particles ...
Task 29: testing particles ...
Task 32: testing particles ...
Task 19: testing particles ...
Task 26: testing particles ...
Task 14: testing particles ...
Task 17: testing particles ...
Task 15: testing particles ...
Task 18: testing particles ...
Task 20: testing particles ...
Task 13: testing particles ...
Task 16: testing particles ...
Task 12: testing particles ...
Task 11: testing particles ...
Task 7: testing particles ...
Task 10: testing particles ...
Task 9: testing particles ...
Task 6: testing particles ...
Task 8: testing particles ...
Task 5: testing particles ...
subfind_exchange() (for return to original CPU)  took 3.47152 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2288.85 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2348.4 MB)
Before=188481
After=206585
NTopleaves= 180762  NTopnodes=206585 (space for 244687)
gravity work-load balance=1.00032   memory-balance=1.00032   SPH work-load balance=0
iter=0 exchange of 0273201756 particles (ret=0)
domain decomposition done. (took 4.03649 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.74417 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000172315 particles. (took 0.0271032 sec)
SO iteration 2: need to repeat for 0000172315 particles. (took 0.0238829 sec)
SO iteration 3: need to repeat for 0000172315 particles. (took 0.0242729 sec)
SO iteration 4: need to repeat for 0000172315 particles. (took 0.0239491 sec)
SO iteration 5: need to repeat for 0000172315 particles. (took 0.024111 sec)
SO iteration 6: need to repeat for 0000172315 particles. (took 0.02408 sec)
SO iteration 7: need to repeat for 0000172315 particles. (took 0.0239902 sec)
SO iteration 8: need to repeat for 0000172315 particles. (took 0.023874 sec)
SO iteration 9: need to repeat for 0000172315 particles. (took 0.0244019 sec)
SO iteration 10: need to repeat for 0000172315 particles. (took 0.024915 sec)
SO iteration 11: need to repeat for 0000172315 particles. (took 0.024848 sec)
SO iteration 12: need to repeat for 0000172315 particles. (took 0.024188 sec)
SO iteration 13: need to repeat for 0000172315 particles. (took 0.0246069 sec)
SO iteration 14: need to repeat for 0000172315 particles. (took 0.024437 sec)
SO iteration 15: need to repeat for 0000171859 particles. (took 0.024107 sec)
SO iteration 16: need to repeat for 0000000673 particles. (took 0.0240419 sec)
SO iteration 17: need to repeat for 0000000052 particles. (took 0.00126815 sec)
SO iteration 18: need to repeat for 0000000002 particles. (took 0.000635862 sec)
SO iteration 1: need to repeat for 0000172315 particles. (took 0.0252321 sec)
SO iteration 2: need to repeat for 0000172315 particles. (took 0.022131 sec)
SO iteration 3: need to repeat for 0000172315 particles. (took 0.0235331 sec)
SO iteration 4: need to repeat for 0000172315 particles. (took 0.0222671 sec)
SO iteration 5: need to repeat for 0000172315 particles. (took 0.0227129 sec)
SO iteration 6: need to repeat for 0000172315 particles. (took 0.0223951 sec)
SO iteration 7: need to repeat for 0000172315 particles. (took 0.0224349 sec)
SO iteration 8: need to repeat for 0000172315 particles. (took 0.0226409 sec)
SO iteration 9: need to repeat for 0000172315 particles. (took 0.0243139 sec)
SO iteration 10: need to repeat for 0000172315 particles. (took 0.0225649 sec)
SO iteration 11: need to repeat for 0000172315 particles. (took 0.022387 sec)
SO iteration 12: need to repeat for 0000172315 particles. (took 0.022269 sec)
SO iteration 13: need to repeat for 0000172315 particles. (took 0.0226369 sec)
SO iteration 14: need to repeat for 0000172315 particles. (took 0.0230072 sec)
SO iteration 15: need to repeat for 0000172217 particles. (took 0.0231671 sec)
SO iteration 16: need to repeat for 0000030529 particles. (took 0.022773 sec)
SO iteration 17: need to repeat for 0000000411 particles. (took 0.00889421 sec)
SO iteration 18: need to repeat for 0000000037 particles. (took 0.000993013 sec)
SO iteration 1: need to repeat for 0000172315 particles. (took 0.0245152 sec)
SO iteration 2: need to repeat for 0000172315 particles. (took 0.0216372 sec)
SO iteration 3: need to repeat for 0000172315 particles. (took 0.0194499 sec)
SO iteration 4: need to repeat for 0000172315 particles. (took 0.020983 sec)
SO iteration 5: need to repeat for 0000172315 particles. (took 0.020539 sec)
SO iteration 6: need to repeat for 0000172315 particles. (took 0.02072 sec)
SO iteration 7: need to repeat for 0000172315 particles. (took 0.0202601 sec)
SO iteration 8: need to repeat for 0000172315 particles. (took 0.0203731 sec)
SO iteration 9: need to repeat for 0000172315 particles. (took 0.0210519 sec)
SO iteration 10: need to repeat for 0000172315 particles. (took 0.021703 sec)
SO iteration 11: need to repeat for 0000172315 particles. (took 0.020997 sec)
SO iteration 12: need to repeat for 0000172315 particles. (took 0.021476 sec)
SO iteration 13: need to repeat for 0000172315 particles. (took 0.021498 sec)
SO iteration 14: need to repeat for 0000172315 particles. (took 0.0205159 sec)
SO iteration 15: need to repeat for 0000172308 particles. (took 0.0378108 sec)
SO iteration 16: need to repeat for 0000172288 particles. (took 0.0396411 sec)
SO iteration 17: need to repeat for 0000055410 particles. (took 0.0269392 sec)
SO iteration 18: need to repeat for 0000001056 particles. (took 0.029325 sec)
SO iteration 19: need to repeat for 0000000068 particles. (took 0.00232005 sec)
SO iteration 20: need to repeat for 0000000002 particles. (took 0.00169182 sec)
SO iteration 1: need to repeat for 0000172315 particles. (took 0.029016 sec)
SO iteration 2: need to repeat for 0000172315 particles. (took 0.0227239 sec)
SO iteration 3: need to repeat for 0000172315 particles. (took 0.0242882 sec)
SO iteration 4: need to repeat for 0000172315 particles. (took 0.0244839 sec)
SO iteration 5: need to repeat for 0000172315 particles. (took 0.0240901 sec)
SO iteration 6: need to repeat for 0000172315 particles. (took 0.024348 sec)
SO iteration 7: need to repeat for 0000172315 particles. (took 0.023628 sec)
SO iteration 8: need to repeat for 0000172315 particles. (took 0.0369411 sec)
SO iteration 9: need to repeat for 0000172315 particles. (took 0.0277581 sec)
SO iteration 10: need to repeat for 0000172315 particles. (took 0.0314441 sec)
SO iteration 11: need to repeat for 0000172315 particles. (took 0.0237381 sec)
SO iteration 12: need to repeat for 0000172315 particles. (took 0.04597 sec)
SO iteration 13: need to repeat for 0000172315 particles. (took 0.0249119 sec)
SO iteration 14: need to repeat for 0000172315 particles. (took 0.023649 sec)
SO iteration 15: need to repeat for 0000171950 particles. (took 0.0235541 sec)
SO iteration 16: need to repeat for 0000001139 particles. (took 0.0232582 sec)
SO iteration 17: need to repeat for 0000000076 particles. (took 0.00128818 sec)
SO iteration 18: need to repeat for 0000000002 particles. (took 0.000617981 sec)
SO iteration 1: need to repeat for 0000172315 particles. (took 0.0244069 sec)
SO iteration 2: need to repeat for 0000172315 particles. (took 0.0216649 sec)
SO iteration 3: need to repeat for 0000172315 particles. (took 0.022706 sec)
SO iteration 4: need to repeat for 0000172315 particles. (took 0.023056 sec)
SO iteration 5: need to repeat for 0000172315 particles. (took 0.0228601 sec)
SO iteration 6: need to repeat for 0000172315 particles. (took 0.022917 sec)
SO iteration 7: need to repeat for 0000172315 particles. (took 0.0229092 sec)
SO iteration 8: need to repeat for 0000172315 particles. (took 0.022994 sec)
SO iteration 9: need to repeat for 0000172315 particles. (took 0.0228381 sec)
SO iteration 10: need to repeat for 0000172315 particles. (took 0.022953 sec)
SO iteration 11: need to repeat for 0000172315 particles. (took 0.022944 sec)
SO iteration 12: need to repeat for 0000172315 particles. (took 0.0228381 sec)
SO iteration 13: need to repeat for 0000172315 particles. (took 0.0229499 sec)
SO iteration 14: need to repeat for 0000172315 particles. (took 0.0228851 sec)
SO iteration 15: need to repeat for 0000172092 particles. (took 0.0231121 sec)
SO iteration 16: need to repeat for 0000005130 particles. (took 0.0228102 sec)
SO iteration 17: need to repeat for 0000000163 particles. (took 0.00298405 sec)
SO iteration 18: need to repeat for 0000000011 particles. (took 0.000651121 sec)
SO iteration 1: need to repeat for 0000172315 particles. (took 0.0245941 sec)
SO iteration 2: need to repeat for 0000172315 particles. (took 0.0215192 sec)
SO iteration 3: need to repeat for 0000172315 particles. (took 0.021683 sec)
SO iteration 4: need to repeat for 0000172315 particles. (took 0.0212598 sec)
SO iteration 5: need to repeat for 0000172315 particles. (took 0.0213139 sec)
SO iteration 6: need to repeat for 0000172315 particles. (took 0.0213518 sec)
SO iteration 7: need to repeat for 0000172315 particles. (took 0.0212941 sec)
SO iteration 8: need to repeat for 0000172315 particles. (took 0.0221291 sec)
SO iteration 9: need to repeat for 0000172315 particles. (took 0.021409 sec)
SO iteration 10: need to repeat for 0000172315 particles. (took 0.021419 sec)
SO iteration 11: need to repeat for 0000172315 particles. (took 0.0213089 sec)
SO iteration 12: need to repeat for 0000172315 particles. (took 0.0213239 sec)
SO iteration 13: need to repeat for 0000172315 particles. (took 0.0213389 sec)
SO iteration 14: need to repeat for 0000172315 particles. (took 0.021379 sec)
SO iteration 15: need to repeat for 0000172269 particles. (took 0.021292 sec)
SO iteration 16: need to repeat for 0000170893 particles. (took 0.0213292 sec)
SO iteration 17: need to repeat for 0000001556 particles. (took 0.0211029 sec)
SO iteration 18: need to repeat for 0000000118 particles. (took 0.00141907 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.00058794 sec)
SO iteration 1: need to repeat for 0000172315 particles. (took 0.0243831 sec)
SO iteration 2: need to repeat for 0000172315 particles. (took 0.0215919 sec)
SO iteration 3: need to repeat for 0000172315 particles. (took 0.0193791 sec)
SO iteration 4: need to repeat for 0000172315 particles. (took 0.0190661 sec)
SO iteration 5: need to repeat for 0000172315 particles. (took 0.019186 sec)
SO iteration 6: need to repeat for 0000172315 particles. (took 0.019192 sec)
SO iteration 7: need to repeat for 0000172315 particles. (took 0.0207729 sec)
SO iteration 8: need to repeat for 0000172315 particles. (took 0.0192349 sec)
SO iteration 9: need to repeat for 0000172315 particles. (took 0.019295 sec)
SO iteration 10: need to repeat for 0000172315 particles. (took 0.0192399 sec)
SO iteration 11: need to repeat for 0000172315 particles. (took 0.0191691 sec)
SO iteration 12: need to repeat for 0000172315 particles. (took 0.019223 sec)
SO iteration 13: need to repeat for 0000172315 particles. (took 0.019197 sec)
SO iteration 14: need to repeat for 0000172315 particles. (took 0.019289 sec)
SO iteration 15: need to repeat for 0000172309 particles. (took 0.019294 sec)
SO iteration 16: need to repeat for 0000172302 particles. (took 0.0193391 sec)
SO iteration 17: need to repeat for 0000159797 particles. (took 0.0192301 sec)
SO iteration 18: need to repeat for 0000005972 particles. (took 0.0188079 sec)
SO iteration 19: need to repeat for 0000000191 particles. (took 0.00252295 sec)
SO iteration 20: need to repeat for 0000000008 particles. (took 0.000648975 sec)
determining spherical overdensity masses took 2.74756 sec
finding spherical overdensity particles took 0.584199 sec
determining contamination of halos took 0.25122 sec
Global sort of Groups took 0.173558 sec
Global sort of SubGroups took 0.747424 sec
Global sort of IDs took 0.524354 sec
Writing block 0 (GLEN), n=813, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3252d
Writing block 1 (GOFF), n=813, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3252d
Writing block 2 (MTOT), n=813, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3252d
Writing block 3 (GPOS), n=813, ptype=0, dtype=1, ndim=3, bpb=4 bytes=9756d
Writing block 4 (MMEA), n=813, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3252d
Writing block 5 (RMEA), n=813, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3252d
Writing block 6 (MCRI), n=813, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3252d
Writing block 7 (RCRI), n=813, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3252d
Writing block 8 (MTOP), n=813, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3252d
Writing block 9 (RTOP), n=813, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3252d
Writing block 17 (NCON), n=813, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3252d
Writing block 18 (MCON), n=813, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3252d
Writing block 22 (NSUB), n=813, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3252d
Writing block 23 (FSUB), n=813, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3252d
Writing block 24 (SLEN), n=3782, ptype=1, dtype=0, ndim=1, bpb=4 bytes=15128d
Writing block 25 (SOFF), n=3782, ptype=1, dtype=0, ndim=1, bpb=4 bytes=15128d
Writing block 27 (MSUB), n=3782, ptype=1, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 28 (SPOS), n=3782, ptype=1, dtype=1, ndim=3, bpb=4 bytes=45384d
Writing block 29 (SVEL), n=3782, ptype=1, dtype=1, ndim=3, bpb=4 bytes=45384d
Writing block 30 (SCM ), n=3782, ptype=1, dtype=1, ndim=3, bpb=4 bytes=45384d
Writing block 33 (VMAX), n=3782, ptype=1, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 34 (RMAX), n=3782, ptype=1, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 35 (RHMS), n=3782, ptype=1, dtype=1, ndim=6, bpb=4 bytes=90768d
Writing block 36 (MTRH), n=3782, ptype=1, dtype=1, ndim=6, bpb=4 bytes=90768d
Writing block 37 (MBID), n=3782, ptype=1, dtype=2, ndim=1, bpb=8 bytes=30256d
Writing block 38 (GRNR), n=3782, ptype=1, dtype=0, ndim=1, bpb=4 bytes=15128d
Writing block 39 (SUBN), n=3782, ptype=1, dtype=0, ndim=1, bpb=4 bytes=15128d
Writing block 40 (SMST), n=3782, ptype=1, dtype=1, ndim=6, bpb=4 bytes=90768d
Writing block 53 (PID ), n=506065, ptype=2, dtype=2, ndim=1, bpb=8 bytes=4048520d
Writing block 54 (SLEN), n=3782, ptype=1, dtype=0, ndim=6, bpb=4 bytes=90768d
Writing block 55 (STEN), n=3782, ptype=1, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 56 (SKEN), n=3782, ptype=1, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 57 (SUEN), n=3782, ptype=1, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 58 (SUIT), n=3782, ptype=1, dtype=1, ndim=9, bpb=4 bytes=136152d
Writing block 59 (BHMA), n=3782, ptype=1, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 60 (BHMD), n=3782, ptype=1, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 61 (SVD ), n=3782, ptype=1, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 62 (SVDH), n=3782, ptype=1, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 63 (HMPR), n=3782, ptype=1, dtype=1, ndim=6, bpb=4 bytes=90768d
Writing block 64 (SSFR), n=3782, ptype=1, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 65 (SSA ), n=3782, ptype=1, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 66 (SSBZ), n=3782, ptype=1, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 67 (SSIM), n=3782, ptype=1, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 68 (SSPI), n=3782, ptype=4, dtype=1, ndim=3, bpb=4 bytes=45384d
Writing block 69 (GSPI), n=3782, ptype=1, dtype=1, ndim=3, bpb=4 bytes=45384d
Writing block 70 (FSPI), n=3782, ptype=5, dtype=1, ndim=3, bpb=4 bytes=45384d
Writing block 71 (SFM ), n=3782, ptype=5, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 72 (SFMT), n=3782, ptype=5, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 73 (SFME), n=3782, ptype=5, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 74 (SFAE), n=3782, ptype=5, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 75 (SFKE), n=3782, ptype=5, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 76 (SFTE), n=3782, ptype=5, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 77 (SMWP), n=3782, ptype=5, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 78 (SMM ), n=3782, ptype=5, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 79 (SMMS), n=3782, ptype=5, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 80 (SFZ ), n=3782, ptype=5, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 81 (SFZS), n=3782, ptype=5, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 82 (SSIA), n=3782, ptype=5, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 83 (SIAS), n=3782, ptype=5, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 84 (SMET), n=3782, ptype=5, dtype=1, ndim=9, bpb=4 bytes=136152d
Writing block 85 (SMTS), n=3782, ptype=5, dtype=1, ndim=9, bpb=4 bytes=136152d
Writing block 86 (MF1 ), n=3782, ptype=5, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 87 (MeF1), n=3782, ptype=5, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 88 (MF  ), n=3782, ptype=5, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 89 (MeF2), n=3782, ptype=5, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 90 (MFA ), n=3782, ptype=5, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 91 (MeFA), n=3782, ptype=5, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 92 (NSPI), n=3782, ptype=6, dtype=1, ndim=3, bpb=4 bytes=45384d
Writing block 93 (NFM ), n=3782, ptype=6, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 94 (NFMT), n=3782, ptype=6, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 95 (NFME), n=3782, ptype=6, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 96 (NFAE), n=3782, ptype=6, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 97 (NFKE), n=3782, ptype=6, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 98 (NFTE), n=3782, ptype=6, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 99 (SMWP), n=3782, ptype=6, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 100 (SMM ), n=3782, ptype=6, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 101 (SMMS), n=3782, ptype=6, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 102 (SSIA), n=3782, ptype=6, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 103 (SIAS), n=3782, ptype=6, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 104 (SMET), n=3782, ptype=6, dtype=1, ndim=9, bpb=4 bytes=136152d
Writing block 105 (SMTS), n=3782, ptype=6, dtype=1, ndim=9, bpb=4 bytes=136152d
Writing block 106 (MF1 ), n=3782, ptype=6, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 107 (MeF1), n=3782, ptype=6, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 108 (MF2 ), n=3782, ptype=6, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 109 (MeF2), n=3782, ptype=6, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 110 (MFA ), n=3782, ptype=6, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 111 (MeFA), n=3782, ptype=6, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 112 (SM  ), n=3782, ptype=4, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 113 (SFKE), n=3782, ptype=4, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 114 (SFAE), n=3782, ptype=4, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 115 (SMWP), n=3782, ptype=4, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 116 (SMM ), n=3782, ptype=4, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 117 (SMMS), n=3782, ptype=4, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 118 (SSIA), n=3782, ptype=4, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 119 (SIAS), n=3782, ptype=4, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 120 (SMET), n=3782, ptype=4, dtype=1, ndim=9, bpb=4 bytes=136152d
Writing block 121 (SMTS), n=3782, ptype=4, dtype=1, ndim=9, bpb=4 bytes=136152d
Writing block 122 (MF1 ), n=3782, ptype=4, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 123 (MeF1), n=3782, ptype=4, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 124 (MF2 ), n=3782, ptype=4, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 125 (MeF2), n=3782, ptype=4, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 126 (MFA ), n=3782, ptype=4, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 127 (MeFA), n=3782, ptype=4, dtype=1, ndim=1, bpb=4 bytes=15128d
Writing block 128 (MMe5), n=813, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3252d
Writing block 129 (RMe5), n=813, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3252d
Writing block 130 (MCr5), n=813, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3252d
Writing block 131 (RCr5), n=813, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3252d
Writing block 132 (MMe2), n=813, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3252d
Writing block 133 (RMe2), n=813, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3252d
Writing block 134 (MCr2), n=813, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3252d
Writing block 135 (RCr2), n=813, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3252d
Writing block 136 (MAPT), n=3782, ptype=7, dtype=1, ndim=60, bpb=4 bytes=907680d
Writing block 137 (SAPT), n=3782, ptype=8, dtype=1, ndim=10, bpb=4 bytes=151280d
Writing block 138 (VAPT), n=3782, ptype=9, dtype=1, ndim=10, bpb=4 bytes=151280d
Writing block 139 (BEGY), n=506065, ptype=2, dtype=1, ndim=1, bpb=4 bytes=2024260d
Subgroup catalogues saved. took = 7.5011 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 6.880841e-01
 eagle_ph_key_ort: type= 2 timed by volker 5.253506e-02
 eagle_ph_key_ort: type= 3 timed by volker 7.164001e-03
 eagle_ph_key_ort: type= 4 timed by volker 7.164001e-03
 eagle_ph_key_ort: type= 5 timed by volker 7.164001e-03
 eagle_ph_key_ort: timing parallel sort = 7.956891e-01
 eagle_fetch_elements: we are using 1372903776 bytes of memory, FreeBytes= 1716129720

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 2313.37 Mbyte (on task=0), Smallest = 1319.23 Mbyte, Average = 1350.23 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0365    1203.0505  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5307    1227.5812  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8845    1268.4657  fof_fof()/fof.c/337
   0 2975 0             Group      1.0635    1269.5293  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1019.3199    2288.8491  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5220    2313.3712  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1579728 number of bytes = 505512960

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3622.6 Mbyte (on task=0), Smallest = 2628.24 Mbyte, Average = 2659.43 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.0365    1203.0505  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5307    1227.5812  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8845    1268.4657  fof_fof()/fof.c/337
   0 2975 0             Group      1.0635    1269.5293  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1019.3199    2288.8491  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5220    2313.3712  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      6.0262    2319.3973  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      6.0262    2325.4235  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      6.0262    2331.4497  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    482.0947    2813.5444  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    482.0947    3295.6392  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    326.9604    3622.5996  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.463287e+00
 eagle_fetch_elements: we are using 1372903776 bytes of memory, FreeBytes= 1716129720
 eagle_fetch_elements: max_bytes= 504, max_elements= 1345984 number of bytes = 678375936
 eagle_ph_key_ort: timing parallel SphP exchange = 3.664017e-03
 eagle_fetch_elements: we are using 1372903776 bytes of memory, FreeBytes= 1716129720
 eagle_fetch_elements: max_bytes= 384, max_elements= 1760133 number of bytes = 675891072
 eagle_ph_key_ort: timing parallel MetP exchange = 5.199909e-04
 eagle_fetch_elements: we are using 1372903776 bytes of memory, FreeBytes= 1716129720
 eagle_fetch_elements: max_bytes= 256, max_elements= 2620045 number of bytes = 670731520
 eagle_ph_key_ort: timing parallel BHP exchange = 5.099773e-04
Sorting particle-data by peano-hilbert key took = 3.64174 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1372903776 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1579728 number of bytes= 505512960
 eagle_ph_restore: timing parallel P exchange = 2.364510e+00
 eagle_send_elements: we are using 1372903776 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1345984 number of bytes= 678375936
 eagle_ph_restore: timing parallel SphP exchange = 2.740860e-03
 eagle_send_elements: we are using 1372903776 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1760133 number of bytes= 675891072
 eagle_ph_restore: timing parallel MetP exchange = 7.760525e-04
 eagle_send_elements: we are using 1372903776 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 2620045 number of bytes= 670731520
 eagle_ph_restore: timing parallel BHP exchange = 7.281303e-04
Restoring original order after ph key sorting took = 2.38538 sec

finished writing particle file...

Finished with SUBFIND.  (total time=4083.6 sec)

Finished computing FoF groups.  (presently allocated=1203.05 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=181993
After=202209
NTopleaves= 176933  NTopnodes=202209 (space for 244687)
gravity work-load balance=1.00049   memory-balance=1.00049   SPH work-load balance=0
iter=0 exchange of 0272980701 particles (ret=0)
domain decomposition done. (took 3.84331 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.94449 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
task 16: endrun called with an error level of 124


task 16: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
task 128: endrun called with an error level of 124


task 128: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 160: endrun called with an error level of 124


task 160: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
task 176: endrun called with an error level of 124


task 176: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
task 192: endrun called with an error level of 124


task 192: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
Finished FOF, total time doing fof/subfind = 4128.94 s
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.70 Mb (on task=112), Smallest =   62646.31 Mb (on task=0), Average =   62686.69 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1885.75 Mb (on task=0), Smallest =    1798.36 Mb (on task=112), Average =    1845.39 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16339.46 Mb (on task=112), Average =   16351.91 Mb
AllocMem:	 Largest =    1885.75 Mb (on task=0), Smallest =    1798.36 Mb (on task=112), Average =    1845.39 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_017_z000p474/snap_017_z000p474.0.hdf5' on task=0 (contains 17470876 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  17057978  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     10081  (tot=     0000303834) masstab=0
Type 3 (bulge):   402817  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.685014

Setting next time for line of sight file to Time_next= 0.678393

Setting next time for snipshot file to Time_next= 0.685981

Setting next time for fof output to Time_next= 0.685981
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.20561 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=196569
After=199057
NTopleaves= 174175  NTopnodes=199057 (space for 244687)
gravity work-load balance=1.00036   memory-balance=1.00036   SPH work-load balance=0
iter=0 exchange of 0273404609 particles (ret=0)
domain decomposition done. (took 10.6222 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.08878 MByte in top-level domain structure

Allocated 503.316 MByte for BH-tree, and 0.664425 Mbyte for top-leaves.  (presently allocted 1706.87 MB)

Begin Ngb-tree construction.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1753.04 Mbyte (on task=33), Smallest = 1752.91 Mbyte, Average = 1753.03 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  33 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
  33 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
  33 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
  33 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
  33 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
  33 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
  33 2972 0          TopNodes      9.8715    1202.8865  domain_allocate()/domain.c/570
  33 2973 0   DomainNodeIndex      0.6644    1203.5509  force_treeallocate()/forcetree.c/4800
  33 2974 0        Nodes_base    258.5182    1462.0691  force_treeallocate()/forcetree.c/4803
  33 2975 0     Extnodes_base    215.4318    1677.5009  force_treeallocate()/forcetree.c/4811
  33 2976 0          Nextnode     15.0626    1692.5635  force_treeallocate()/forcetree.c/4820
  33 2977 0            Father     14.3032    1706.8667  force_treeallocate()/forcetree.c/4827
  33 2978 0           Ngblist      4.0881    1710.9548  density()/density.c/690
  33 2979 0              Left      8.1762    1719.1311  density()/density.c/692
  33 2980 0             Right      8.1762    1727.3073  density()/density.c/693
  33 2981 0    DataIndexTable      7.0175    1734.3248  density()/density.c/738
  33 2982 0      DataNodeList     18.7134    1753.0383  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.468.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.540.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.87 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=181233
After=201193
NTopleaves= 176044  NTopnodes=201193 (space for 244687)
gravity work-load balance=1.00056   memory-balance=1.00056   SPH work-load balance=0
iter=0 exchange of 0273056522 particles (ret=0)
domain decomposition done. (took 3.78968 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.991 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1202.99 MB)
Tree construction.

Start linking particles (presently allocated=1756.41 MB)
links on local processor done (took 7.12468 sec).
Marked=0057445086 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1858.02 MB) 
have done 0001014965 cross links (processed 0057445086, took 4.49944 sec)
have done 0000438539 cross links (processed 0043924705, took 4.30773 sec)
have done 0000309005 cross links (processed 0036698626, took 3.41924 sec)
have done 0000204068 cross links (processed 0026412609, took 3.49704 sec)
have done 0000132303 cross links (processed 0017376455, took 3.71751 sec)
have done 0000087746 cross links (processed 0011153298, took 2.93187 sec)
have done 0000056614 cross links (processed 0007075058, took 3.1251 sec)
have done 0000037480 cross links (processed 0003930352, took 1.61712 sec)
have done 0000023342 cross links (processed 0002729376, took 1.19904 sec)
have done 0000015012 cross links (processed 0001301451, took 1.23656 sec)
have done 0000008735 cross links (processed 0000514490, took 0.425359 sec)
have done 0000004733 cross links (processed 0000488238, took 0.586917 sec)
have done 0000003256 cross links (processed 0000371244, took 0.422788 sec)
have done 0000002192 cross links (processed 0000416617, took 0.584253 sec)
have done 0000001361 cross links (processed 0000095844, took 0.409577 sec)
have done 0000000525 cross links (processed 0000013001, took 0.069855 sec)
have done 0000000129 cross links (processed 0000002192, took 0.044863 sec)
have done 0000000036 cross links (processed 0000000540, took 0.0444582 sec)
have done 0000000007 cross links (processed 0000000153, took 0.0444899 sec)
have done 0000000000 cross links (processed 0000000025, took 0.044374 sec)
Local groups found.

group finding took = 39.4549 sec
Start finding nearest dm-particle (presently allocated=1756.41 MB)
still finding nearest... (presently allocated=1845.87 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.109852 sec
compiling local group data and catalogue took = 0.619568 sec

Total number of groups with at least 32 particles: 206088
Largest group has 10949017 particles.
Total number of particles in groups: 0134392598

group properties are now allocated.. (presently allocated=1269.42 MB)
computation of group properties took = 0.072468 sec
start global sorting of group catalogues number 17
LargestGroup = 8618.729028; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.052685 sec
Group catalogues globally sorted. took = 0.829366 sec
starting saving of group catalogue number 17
data//groups_017_z000p474
Group catalogues number 17 saved. took = 2.42774 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.716307 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.270832 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.712448 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0189888535 particles. (took 20.2891 sec)
ngb iteration 2: need to repeat for 0147796352 particles. (took 9.63799 sec)
ngb iteration 3: need to repeat for 0128698274 particles. (took 7.01227 sec)
ngb iteration 4: need to repeat for 0116753899 particles. (took 5.71225 sec)
ngb iteration 5: need to repeat for 0104362692 particles. (took 5.01028 sec)
ngb iteration 6: need to repeat for 0087311729 particles. (took 4.45228 sec)
ngb iteration 7: need to repeat for 0066289390 particles. (took 3.78028 sec)
ngb iteration 8: need to repeat for 0045758734 particles. (took 3.0829 sec)
ngb iteration 9: need to repeat for 0029294826 particles. (took 2.29544 sec)
ngb iteration 10: need to repeat for 0017794212 particles. (took 1.58624 sec)
ngb iteration 11: need to repeat for 0010459621 particles. (took 1.05144 sec)
ngb iteration 12: need to repeat for 0006041799 particles. (took 0.627324 sec)
ngb iteration 13: need to repeat for 0003462435 particles. (took 0.387989 sec)
ngb iteration 14: need to repeat for 0001887234 particles. (took 0.251261 sec)
ngb iteration 15: need to repeat for 0000895763 particles. (took 0.166426 sec)
ngb iteration 16: need to repeat for 0000450679 particles. (took 0.103686 sec)
ngb iteration 17: need to repeat for 0000236188 particles. (took 0.0750051 sec)
ngb iteration 18: need to repeat for 0000125460 particles. (took 0.060209 sec)
ngb iteration 19: need to repeat for 0000066333 particles. (took 0.0526938 sec)
ngb iteration 20: need to repeat for 0000034283 particles. (took 0.0479541 sec)
ngb iteration 21: need to repeat for 0000017231 particles. (took 0.04461 sec)
ngb iteration 22: need to repeat for 0000008210 particles. (took 0.0428059 sec)
ngb iteration 23: need to repeat for 0000003741 particles. (took 0.0415561 sec)
ngb iteration 24: need to repeat for 0000001629 particles. (took 0.041136 sec)
ngb iteration 25: need to repeat for 0000000704 particles. (took 0.0406692 sec)
ngb iteration 26: need to repeat for 0000000277 particles. (took 0.0404079 sec)
ngb iteration 27: need to repeat for 0000000099 particles. (took 0.0403779 sec)
ngb iteration 28: need to repeat for 0000000039 particles. (took 0.040379 sec)
ngb iteration 29: need to repeat for 0000000015 particles. (took 0.0405951 sec)
ngb iteration 30: need to repeat for 0000000009 particles. (took 0.0403001 sec)
ngb iteration 31: need to repeat for 0000000006 particles. (took 0.0402892 sec)
ngb iteration 32: need to repeat for 0000000003 particles. (took 0.040302 sec)
ngb iteration 33: need to repeat for 0000000003 particles. (took 0.0402431 sec)
ngb iteration 34: need to repeat for 0000000003 particles. (took 0.0403299 sec)
ngb iteration 35: need to repeat for 0000000002 particles. (took 0.0414131 sec)
ngb iteration 36: need to repeat for 0000000001 particles. (took 0.041111 sec)
final operations ... 
density and smoothing length for species 1 took 66.7045 sec
Tree construction.
tree build took 0.717984 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.270215 sec
Tree construction.
tree build took 0.7157 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.271723 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.174964 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 2.00992 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.713922 sec
density() of species 1 took 1.90735e-06 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.176809 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 2.00881 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.174875 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 2.00959 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.994746 sec
saving densities took 2.93112 sec

Number of FOF halos treated with collective SubFind code = 5
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 206083 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 21450 - 59397113 

subfind_exchange()() took 1.77344 sec

collectively doing halo 1, num=17
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2484.7 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2544.25 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 2544.25 Mbyte (on task=0), Smallest = 1353.83 Mbyte, Average = 1386.08 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9774    1202.9914  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5317    1227.5231  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8862    1268.4093  fof_fof()/fof.c/337
   0 2975 0             Group      1.0075    1269.4168  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1215.2791    2484.6959  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    2496.9552  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    2525.5616  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    2526.5068  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    2527.4402  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    2528.3736  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    2529.3070  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    2530.2443  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    2531.1816  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    2544.2493  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=134209
After=169881
NTopleaves= 148646  NTopnodes=169881 (space for 244687)
gravity work-load balance=1.00057   memory-balance=1.00057   SPH work-load balance=0
iter=0 exchange of 0010903470 particles (ret=0)
domain decomposition done. (took 0.996226 sec)
Freed 3.42435 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 2992.12 Mbyte (on task=0), Smallest = 1801.7 Mbyte, Average = 1833.95 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9774    1202.9914  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5317    1227.5231  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8862    1268.4093  fof_fof()/fof.c/337
   0 2975 0             Group      1.0075    1269.4168  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1215.2791    2484.6959  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.4246    2493.2455  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5670    2493.8125  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    255.8470    2749.6596  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base    213.2059    2962.8655  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9513    2977.8167  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    2992.1199  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.43898 sec  (presently allocated=2992.12 MB)
force_treebuild() took 1.96547 sec (presently allocated=2992.12 MB)
Start find_linkngb (42602 particles on task=0)
find linkngb iteration 1: need to repeat for 0010482022 particles. (took 0.831999 sec)
find linkngb iteration 2: need to repeat for 0009645479 particles. (took 0.586855 sec)
find linkngb iteration 3: need to repeat for 0009199729 particles. (took 0.39961 sec)
find linkngb iteration 4: need to repeat for 0008062370 particles. (took 0.453357 sec)
find linkngb iteration 5: need to repeat for 0006697691 particles. (took 0.387946 sec)
find linkngb iteration 6: need to repeat for 0004850563 particles. (took 0.318093 sec)
find linkngb iteration 7: need to repeat for 0003048495 particles. (took 0.225755 sec)
find linkngb iteration 8: need to repeat for 0001732878 particles. (took 0.143849 sec)
find linkngb iteration 9: need to repeat for 0000927939 particles. (took 0.0886438 sec)
find linkngb iteration 10: need to repeat for 0000481056 particles. (took 0.0542119 sec)
find linkngb iteration 11: need to repeat for 0000244683 particles. (took 0.03373 sec)
find linkngb iteration 12: need to repeat for 0000051578 particles. (took 0.0221128 sec)
find linkngb iteration 13: need to repeat for 0000000970 particles. (took 0.010432 sec)
find linkngb iteration 14: need to repeat for 0000000257 particles. (took 0.000823975 sec)
find linkngb iteration 15: need to repeat for 0000000079 particles. (took 0.000571012 sec)
find linkngb iteration 16: need to repeat for 0000000016 particles. (took 0.000479937 sec)
find linkngb iteration 17: need to repeat for 0000000006 particles. (took 0.000421047 sec)
find linkngb iteration 18: need to repeat for 0000000001 particles. (took 0.000422955 sec)
find_linkngb() took 3.56082 sec
Start finding nearest two (42602 particles on task=0)
find_nearesttwo() took 0.712632 sec (presently allocated=2995.37 MB)
parallel sort of densities done. took 0.069664 sec
building distributed linked list. (presently allocated 2994.95 MB)
identification of primary candidates took 283.552 sec
adding background as candidate took 0.171469 sec
establishing of rank order took 84.8192 sec  (p=10949017, grouplen=10949017) presently allocated 2994.95 MB

total number of subhalo candidates=50293

number of subhalo candidates that can be done independently=44267.
(Largest size is 3539, finding them took 0.013895 sec)
particles are marked (took 60.7771)
independent subhalos are assembled on individual CPUs for unbinding (0.185652 sec, (presently allocated=2994.95 MB)
unbinding of independent ones took 0.0904131 sec
particles have returned to their original processor (0.240857 sec, presently allocated 2994.95 MB)

number of subhalo candidates that can be done independently=5491.
(Largest size is 12381, finding them took 0.981622 sec)
particles are marked (took 39.7529)
independent subhalos are assembled on individual CPUs for unbinding (0.17325 sec, (presently allocated=2994.95 MB)
unbinding of independent ones took 0.368165 sec
particles have returned to their original processor (0.229367 sec, presently allocated 2994.95 MB)

number of subhalo candidates that can be done independently=488.
(Largest size is 49505, finding them took 0.963097 sec)
particles are marked (took 32.4644)
independent subhalos are assembled on individual CPUs for unbinding (0.162288 sec, (presently allocated=2994.95 MB)
unbinding of independent ones took 1.58333 sec
particles have returned to their original processor (0.220789 sec, presently allocated 2994.95 MB)

number of subhalo candidates that can be done independently=37.
(Largest size is 165719, finding them took 0.835322 sec)
particles are marked (took 30.1424)
independent subhalos are assembled on individual CPUs for unbinding (0.159506 sec, (presently allocated=2994.95 MB)
unbinding of independent ones took 4.13793 sec
particles have returned to their original processor (0.220049 sec, presently allocated 2994.95 MB)

number of subhalo candidates that can be done independently=6.
(Largest size is 354163, finding them took 0.510058 sec)
particles are marked (took 24.8534)
independent subhalos are assembled on individual CPUs for unbinding (0.153556 sec, (presently allocated=2994.95 MB)
unbinding of independent ones took 1.29251 sec
particles have returned to their original processor (0.216344 sec, presently allocated 2994.95 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 1540161, finding them took 0.509456 sec)
too few, I do the rest of 4 collectively

collective unbinding of nr=0 (4) of length=165719 ... maximum alloacted 2995.11 MB
took 6.20985 sec
collective unbinding of nr=1 (4) of length=354163 ... maximum alloacted 2995.11 MB
took 7.26661 sec
collective unbinding of nr=2 (4) of length=1540161 ... maximum alloacted 2995.11 MB
took 26.6672 sec
collective unbinding of nr=3 (4) of length=10949017 ... maximum alloacted 2995.11 MB
took 182.889 sec

the collective unbinding of remaining halos took 245.197 sec

found 3508 bound substructures in FoF group of length 10949017
determination of parent subhalo took 0.0502541 sec (presently allocated 2995.11 MB)
determining substructure properties took 237.031 sec (presently allocated 2995.11 MB)

collectively doing halo 2, num=17
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2484.7 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2544.25 MB)
Before=133513
After=164401
NTopleaves= 143851  NTopnodes=164401 (space for 244687)
gravity work-load balance=1.00057   memory-balance=1.00057   SPH work-load balance=0
iter=0 exchange of 0008037857 particles (ret=0)
domain decomposition done. (took 0.967207 sec)
Freed 3.6752 MByte in top-level domain structure
coldomain_Decomposition() took 1.40225 sec  (presently allocated=2990.89 MB)
force_treebuild() took 2.00634 sec (presently allocated=2990.89 MB)
Start find_linkngb (31556 particles on task=0)
find linkngb iteration 1: need to repeat for 0007899786 particles. (took 0.637506 sec)
find linkngb iteration 2: need to repeat for 0007426629 particles. (took 0.446012 sec)
find linkngb iteration 3: need to repeat for 0007092815 particles. (took 0.301734 sec)
find linkngb iteration 4: need to repeat for 0006245165 particles. (took 0.346295 sec)
find linkngb iteration 5: need to repeat for 0005201068 particles. (took 0.292305 sec)
find linkngb iteration 6: need to repeat for 0003770181 particles. (took 0.240768 sec)
find linkngb iteration 7: need to repeat for 0002371612 particles. (took 0.171004 sec)
find linkngb iteration 8: need to repeat for 0001349441 particles. (took 0.110404 sec)
find linkngb iteration 9: need to repeat for 0000722656 particles. (took 0.080286 sec)
find linkngb iteration 10: need to repeat for 0000374874 particles. (took 0.0481501 sec)
find linkngb iteration 11: need to repeat for 0000190491 particles. (took 0.0280261 sec)
find linkngb iteration 12: need to repeat for 0000040369 particles. (took 0.018507 sec)
find linkngb iteration 13: need to repeat for 0000000725 particles. (took 0.009444 sec)
find linkngb iteration 14: need to repeat for 0000000197 particles. (took 0.000720978 sec)
find linkngb iteration 15: need to repeat for 0000000068 particles. (took 0.000466108 sec)
find linkngb iteration 16: need to repeat for 0000000028 particles. (took 0.000424147 sec)
find linkngb iteration 17: need to repeat for 0000000006 particles. (took 0.000407934 sec)
find linkngb iteration 18: need to repeat for 0000000001 particles. (took 0.000397921 sec)
find_linkngb() took 2.73386 sec
Start finding nearest two (31556 particles on task=0)
find_nearesttwo() took 0.51738 sec (presently allocated=2993.3 MB)
parallel sort of densities done. took 0.0599561 sec
building distributed linked list. (presently allocated 2992.98 MB)
identification of primary candidates took 200.61 sec
adding background as candidate took 0.17887 sec
establishing of rank order took 65.9549 sec  (p=8078813, grouplen=8078813) presently allocated 2992.98 MB

total number of subhalo candidates=39057

number of subhalo candidates that can be done independently=34296.
(Largest size is 2613, finding them took 0.0103528 sec)
particles are marked (took 47.1189)
independent subhalos are assembled on individual CPUs for unbinding (0.176863 sec, (presently allocated=2992.98 MB)
unbinding of independent ones took 0.0540991 sec
particles have returned to their original processor (0.236506 sec, presently allocated 2992.98 MB)

number of subhalo candidates that can be done independently=4371.
(Largest size is 14091, finding them took 1.00072 sec)
particles are marked (took 30.9206)
independent subhalos are assembled on individual CPUs for unbinding (0.165872 sec, (presently allocated=2992.98 MB)
unbinding of independent ones took 0.586423 sec
particles have returned to their original processor (0.232163 sec, presently allocated 2992.98 MB)

number of subhalo candidates that can be done independently=352.
(Largest size is 101782, finding them took 0.987082 sec)
particles are marked (took 24.9667)
independent subhalos are assembled on individual CPUs for unbinding (0.168346 sec, (presently allocated=2992.98 MB)
unbinding of independent ones took 4.78648 sec
particles have returned to their original processor (0.242374 sec, presently allocated 2992.98 MB)

number of subhalo candidates that can be done independently=36.
(Largest size is 46266, finding them took 0.923362 sec)
particles are marked (took 22.3039)
independent subhalos are assembled on individual CPUs for unbinding (0.157937 sec, (presently allocated=2992.98 MB)
unbinding of independent ones took 1.2949 sec
particles have returned to their original processor (0.223818 sec, presently allocated 2992.98 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 126234, finding them took 0.521537 sec)
particles are marked (took 19.4776)
independent subhalos are assembled on individual CPUs for unbinding (0.158701 sec, (presently allocated=2992.98 MB)
unbinding of independent ones took 3.39502 sec
particles have returned to their original processor (0.228664 sec, presently allocated 2992.98 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 8078813, finding them took 0.521226 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=8078813 ... maximum alloacted 2993.1 MB
took 146.432 sec

the collective unbinding of remaining halos took 163.487 sec

found 2315 bound substructures in FoF group of length 8078813
determination of parent subhalo took 0.0446482 sec (presently allocated 2993.1 MB)
determining substructure properties took 154.889 sec (presently allocated 2993.1 MB)

collectively doing halo 3, num=17
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2484.7 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2544.25 MB)
Before=133961
After=162201
NTopleaves= 141926  NTopnodes=162201 (space for 244687)
gravity work-load balance=1.00056   memory-balance=1.00056   SPH work-load balance=0
iter=0 exchange of 0006669274 particles (ret=0)
domain decomposition done. (took 0.92443 sec)
Freed 3.77591 MByte in top-level domain structure
coldomain_Decomposition() took 1.3539 sec  (presently allocated=2990.4 MB)
force_treebuild() took 2.03372 sec (presently allocated=2990.4 MB)
Start find_linkngb (26052 particles on task=0)
find linkngb iteration 1: need to repeat for 0006594834 particles. (took 0.498725 sec)
find linkngb iteration 2: need to repeat for 0006263557 particles. (took 0.344634 sec)
find linkngb iteration 3: need to repeat for 0005982314 particles. (took 0.280942 sec)
find linkngb iteration 4: need to repeat for 0005285621 particles. (took 0.267657 sec)
find linkngb iteration 5: need to repeat for 0004407054 particles. (took 0.228472 sec)
find linkngb iteration 6: need to repeat for 0003195579 particles. (took 0.187602 sec)
find linkngb iteration 7: need to repeat for 0002011247 particles. (took 0.135802 sec)
find linkngb iteration 8: need to repeat for 0001144942 particles. (took 0.0892129 sec)
find linkngb iteration 9: need to repeat for 0000612967 particles. (took 0.0566771 sec)
find linkngb iteration 10: need to repeat for 0000317669 particles. (took 0.0373302 sec)
find linkngb iteration 11: need to repeat for 0000161731 particles. (took 0.0238841 sec)
find linkngb iteration 12: need to repeat for 0000034454 particles. (took 0.0173709 sec)
find linkngb iteration 13: need to repeat for 0000000752 particles. (took 0.00873804 sec)
find linkngb iteration 14: need to repeat for 0000000202 particles. (took 0.000684977 sec)
find linkngb iteration 15: need to repeat for 0000000067 particles. (took 0.000457048 sec)
find linkngb iteration 16: need to repeat for 0000000022 particles. (took 0.000394106 sec)
find linkngb iteration 17: need to repeat for 0000000007 particles. (took 0.000377893 sec)
find_linkngb() took 2.17991 sec
Start finding nearest two (26052 particles on task=0)
find_nearesttwo() took 0.419834 sec (presently allocated=2992.38 MB)
parallel sort of densities done. took 0.055511 sec
building distributed linked list. (presently allocated 2992.12 MB)
identification of primary candidates took 175.988 sec
adding background as candidate took 0.176917 sec
establishing of rank order took 53.798 sec  (p=6696808, grouplen=6696808) presently allocated 2992.12 MB

total number of subhalo candidates=29164

number of subhalo candidates that can be done independently=25970.
(Largest size is 2728, finding them took 0.00800109 sec)
particles are marked (took 35.8378)
independent subhalos are assembled on individual CPUs for unbinding (0.167114 sec, (presently allocated=2992.12 MB)
unbinding of independent ones took 0.0825751 sec
particles have returned to their original processor (0.228944 sec, presently allocated 2992.12 MB)

number of subhalo candidates that can be done independently=2927.
(Largest size is 13129, finding them took 1.02026 sec)
particles are marked (took 24.0049)
independent subhalos are assembled on individual CPUs for unbinding (0.165934 sec, (presently allocated=2992.12 MB)
unbinding of independent ones took 0.38241 sec
particles have returned to their original processor (0.227623 sec, presently allocated 2992.12 MB)

number of subhalo candidates that can be done independently=236.
(Largest size is 65267, finding them took 0.905799 sec)
particles are marked (took 19.0638)
independent subhalos are assembled on individual CPUs for unbinding (0.161135 sec, (presently allocated=2992.12 MB)
unbinding of independent ones took 1.39765 sec
particles have returned to their original processor (0.229363 sec, presently allocated 2992.12 MB)

number of subhalo candidates that can be done independently=26.
(Largest size is 229814, finding them took 0.53943 sec)
particles are marked (took 16.9424)
independent subhalos are assembled on individual CPUs for unbinding (0.158737 sec, (presently allocated=2992.12 MB)
unbinding of independent ones took 1.89007 sec
particles have returned to their original processor (0.225847 sec, presently allocated 2992.12 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 507512, finding them took 0.539254 sec)
particles are marked (took 14.0173)
independent subhalos are assembled on individual CPUs for unbinding (0.153536 sec, (presently allocated=2992.12 MB)
unbinding of independent ones took 1.60988 sec
particles have returned to their original processor (0.224795 sec, presently allocated 2992.12 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 507512, finding them took 0.538674 sec)
too few, I do the rest of 4 collectively

collective unbinding of nr=0 (4) of length=229814 ... maximum alloacted 2992.22 MB
took 7.16785 sec
collective unbinding of nr=1 (4) of length=507512 ... maximum alloacted 2992.22 MB
took 9.33753 sec
collective unbinding of nr=2 (4) of length=325655 ... maximum alloacted 2992.22 MB
took 6.9212 sec
collective unbinding of nr=3 (4) of length=6696808 ... maximum alloacted 2992.22 MB
took 127.949 sec

the collective unbinding of remaining halos took 164.088 sec

found 2585 bound substructures in FoF group of length 6696808
determination of parent subhalo took 0.0455549 sec (presently allocated 2992.22 MB)
determining substructure properties took 148.532 sec (presently allocated 2992.22 MB)

collectively doing halo 4, num=17
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2484.7 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2544.25 MB)
Before=142545
After=164961
NTopleaves= 144341  NTopnodes=164961 (space for 244687)
gravity work-load balance=1.00043   memory-balance=1.00043   SPH work-load balance=0
iter=0 exchange of 0004484710 particles (ret=0)
domain decomposition done. (took 0.909458 sec)
Freed 3.64957 MByte in top-level domain structure
coldomain_Decomposition() took 1.33439 sec  (presently allocated=2991.01 MB)
force_treebuild() took 2.02355 sec (presently allocated=2991.01 MB)
Start find_linkngb (17583 particles on task=0)
find linkngb iteration 1: need to repeat for 0004473044 particles. (took 0.324007 sec)
find linkngb iteration 2: need to repeat for 0004345019 particles. (took 0.215395 sec)
find linkngb iteration 3: need to repeat for 0004160776 particles. (took 0.149782 sec)
find linkngb iteration 4: need to repeat for 0003705954 particles. (took 0.168049 sec)
find linkngb iteration 5: need to repeat for 0003102673 particles. (took 0.145943 sec)
find linkngb iteration 6: need to repeat for 0002255745 particles. (took 0.147613 sec)
find linkngb iteration 7: need to repeat for 0001422738 particles. (took 0.101917 sec)
find linkngb iteration 8: need to repeat for 0000810059 particles. (took 0.0622289 sec)
find linkngb iteration 9: need to repeat for 0000434012 particles. (took 0.059742 sec)
find linkngb iteration 10: need to repeat for 0000224850 particles. (took 0.026623 sec)
find linkngb iteration 11: need to repeat for 0000114376 particles. (took 0.018208 sec)
find linkngb iteration 12: need to repeat for 0000024361 particles. (took 0.0157039 sec)
find linkngb iteration 13: need to repeat for 0000000608 particles. (took 0.00771809 sec)
find linkngb iteration 14: need to repeat for 0000000174 particles. (took 0.000643015 sec)
find linkngb iteration 15: need to repeat for 0000000051 particles. (took 0.000430107 sec)
find linkngb iteration 16: need to repeat for 0000000013 particles. (took 0.000374794 sec)
find linkngb iteration 17: need to repeat for 0000000005 particles. (took 0.000365973 sec)
find_linkngb() took 1.44566 sec
Start finding nearest two (17583 particles on task=0)
find_nearesttwo() took 0.286262 sec (presently allocated=2992.36 MB)
parallel sort of densities done. took 0.0498841 sec
building distributed linked list. (presently allocated 2992.18 MB)
identification of primary candidates took 123.55 sec
adding background as candidate took 0.159204 sec
establishing of rank order took 36.7257 sec  (p=4500079, grouplen=4500079) presently allocated 2992.18 MB

total number of subhalo candidates=17936

number of subhalo candidates that can be done independently=16167.
(Largest size is 3311, finding them took 0.00503922 sec)
particles are marked (took 22.5845)
independent subhalos are assembled on individual CPUs for unbinding (0.159594 sec, (presently allocated=2992.18 MB)
unbinding of independent ones took 0.053309 sec
particles have returned to their original processor (0.222614 sec, presently allocated 2992.18 MB)

number of subhalo candidates that can be done independently=1631.
(Largest size is 34396, finding them took 1.00764 sec)
particles are marked (took 15.6941)
independent subhalos are assembled on individual CPUs for unbinding (0.165568 sec, (presently allocated=2992.18 MB)
unbinding of independent ones took 0.772601 sec
particles have returned to their original processor (0.231835 sec, presently allocated 2992.18 MB)

number of subhalo candidates that can be done independently=127.
(Largest size is 101818, finding them took 0.902946 sec)
particles are marked (took 13.6325)
independent subhalos are assembled on individual CPUs for unbinding (0.158978 sec, (presently allocated=2992.18 MB)
unbinding of independent ones took 2.59523 sec
particles have returned to their original processor (0.229004 sec, presently allocated 2992.18 MB)

number of subhalo candidates that can be done independently=7.
(Largest size is 281506, finding them took 0.531461 sec)
particles are marked (took 9.06272)
independent subhalos are assembled on individual CPUs for unbinding (0.15412 sec, (presently allocated=2992.18 MB)
unbinding of independent ones took 0.540447 sec
particles have returned to their original processor (0.224258 sec, presently allocated 2992.18 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 742263, finding them took 0.560591 sec)
particles are marked (took 9.62034)
independent subhalos are assembled on individual CPUs for unbinding (0.152662 sec, (presently allocated=2992.18 MB)
unbinding of independent ones took 2.43039 sec
particles have returned to their original processor (0.224563 sec, presently allocated 2992.18 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 742263, finding them took 0.5319 sec)
too few, I do the rest of 3 collectively

collective unbinding of nr=0 (3) of length=281506 ... maximum alloacted 2992.25 MB
took 7.28064 sec
collective unbinding of nr=1 (3) of length=742263 ... maximum alloacted 2992.25 MB
took 16.613 sec
collective unbinding of nr=2 (3) of length=4500079 ... maximum alloacted 2992.25 MB
took 84.0688 sec

the collective unbinding of remaining halos took 115.693 sec

found 1715 bound substructures in FoF group of length 4500079
determination of parent subhalo took 0.0509691 sec (presently allocated 2992.25 MB)
determining substructure properties took 106.139 sec (presently allocated 2992.25 MB)

collectively doing halo 5, num=17
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2484.7 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2544.25 MB)
Before=142809
After=165993
NTopleaves= 145244  NTopnodes=165993 (space for 244687)
gravity work-load balance=1.00042   memory-balance=1.00042   SPH work-load balance=0
iter=0 exchange of 0003092448 particles (ret=0)
domain decomposition done. (took 0.896944 sec)
Freed 3.60233 MByte in top-level domain structure
coldomain_Decomposition() took 1.32186 sec  (presently allocated=2991.25 MB)
force_treebuild() took 2.0086 sec (presently allocated=2991.25 MB)
Start find_linkngb (12122 particles on task=0)
find linkngb iteration 1: need to repeat for 0003098315 particles. (took 0.22233 sec)
find linkngb iteration 2: need to repeat for 0003041633 particles. (took 0.145306 sec)
find linkngb iteration 3: need to repeat for 0002917311 particles. (took 0.103262 sec)
find linkngb iteration 4: need to repeat for 0002615256 particles. (took 0.116061 sec)
find linkngb iteration 5: need to repeat for 0002194502 particles. (took 0.10238 sec)
find linkngb iteration 6: need to repeat for 0001597894 particles. (took 0.08688 sec)
find linkngb iteration 7: need to repeat for 0001008122 particles. (took 0.0653369 sec)
find linkngb iteration 8: need to repeat for 0000574822 particles. (took 0.0450108 sec)
find linkngb iteration 9: need to repeat for 0000308033 particles. (took 0.0308192 sec)
find linkngb iteration 10: need to repeat for 0000159449 particles. (took 0.0211201 sec)
find linkngb iteration 11: need to repeat for 0000080862 particles. (took 0.015429 sec)
find linkngb iteration 12: need to repeat for 0000017566 particles. (took 0.0113411 sec)
find linkngb iteration 13: need to repeat for 0000000519 particles. (took 0.0069139 sec)
find linkngb iteration 14: need to repeat for 0000000153 particles. (took 0.000550985 sec)
find linkngb iteration 15: need to repeat for 0000000049 particles. (took 0.000396967 sec)
find linkngb iteration 16: need to repeat for 0000000017 particles. (took 0.000363827 sec)
find linkngb iteration 17: need to repeat for 0000000007 particles. (took 0.000341892 sec)
find_linkngb() took 0.974678 sec
Start finding nearest two (12122 particles on task=0)
find_nearesttwo() took 0.200538 sec (presently allocated=2992.17 MB)
parallel sort of densities done. took 0.044945 sec
building distributed linked list. (presently allocated 2992.05 MB)
identification of primary candidates took 80.9476 sec
adding background as candidate took 0.184802 sec
establishing of rank order took 26.4317 sec  (p=3105261, grouplen=3105261) presently allocated 2992.05 MB

total number of subhalo candidates=13294

number of subhalo candidates that can be done independently=11958.
(Largest size is 2035, finding them took 0.00367498 sec)
particles are marked (took 16.6024)
independent subhalos are assembled on individual CPUs for unbinding (0.153641 sec, (presently allocated=2992.05 MB)
unbinding of independent ones took 0.0394959 sec
particles have returned to their original processor (0.215679 sec, presently allocated 2992.05 MB)

number of subhalo candidates that can be done independently=1227.
(Largest size is 19620, finding them took 0.987965 sec)
particles are marked (took 10.8681)
independent subhalos are assembled on individual CPUs for unbinding (0.157232 sec, (presently allocated=2992.05 MB)
unbinding of independent ones took 0.400237 sec
particles have returned to their original processor (0.223155 sec, presently allocated 2992.05 MB)

number of subhalo candidates that can be done independently=95.
(Largest size is 49186, finding them took 1.01664 sec)
particles are marked (took 9.17153)
independent subhalos are assembled on individual CPUs for unbinding (0.156139 sec, (presently allocated=2992.05 MB)
unbinding of independent ones took 1.65319 sec
particles have returned to their original processor (0.235532 sec, presently allocated 2992.05 MB)

number of subhalo candidates that can be done independently=12.
(Largest size is 69929, finding them took 0.811067 sec)
particles are marked (took 8.82747)
independent subhalos are assembled on individual CPUs for unbinding (0.175881 sec, (presently allocated=2992.05 MB)
unbinding of independent ones took 3.90372 sec
particles have returned to their original processor (0.26275 sec, presently allocated 2992.05 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 6309, finding them took 0.524262 sec)
particles are marked (took 6.31753)
independent subhalos are assembled on individual CPUs for unbinding (0.147356 sec, (presently allocated=2992.05 MB)
unbinding of independent ones took 0.100875 sec
particles have returned to their original processor (0.211389 sec, presently allocated 2992.05 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 3105261, finding them took 0.449891 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=3105261 ... maximum alloacted 2992.1 MB
took 53.205 sec

the collective unbinding of remaining halos took 58.9948 sec

found 1233 bound substructures in FoF group of length 3105261
determination of parent subhalo took 0.042726 sec (presently allocated 2992.1 MB)
determining substructure properties took 66.7777 sec (presently allocated 2992.1 MB)
processing of collective halos took 3301.4 sec
sort of local particles()() took 0.552161 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 493.779 sec

Task 241: testing particles ...
Task 235: testing particles ...
Task 248: testing particles ...
unsorting of local particles()() took 0.466782 sec
Task 0: testing particles ...
Task 236: testing particles ...
Task 145: testing particles ...
Task 1: testing particles ...
Task 197: testing particles ...
Task 3: testing particles ...
Task 249: testing particles ...
Task 194: testing particles ...
Task 208: testing particles ...
Task 186: testing particles ...
Task 228: testing particles ...
Task 201: testing particles ...
Task 217: testing particles ...
Task 4: testing particles ...
Task 252: testing particles ...
Task 211: testing particles ...
Task 251: testing particles ...
Task 155: testing particles ...
Task 191: testing particles ...
Task 105: testing particles ...
Task 149: testing particles ...
Task 180: testing particles ...
Task 2: testing particles ...
Task 240: testing particles ...
Task 230: testing particles ...
Task 171: testing particles ...
Task 154: testing particles ...
Task 202: testing particles ...
Task 226: testing particles ...
Task 129: testing particles ...
Task 198: testing particles ...
Task 169: testing particles ...
Task 220: testing particles ...
Task 166: testing particles ...
Task 227: testing particles ...
Task 124: testing particles ...
Task 207: testing particles ...
Task 160: testing particles ...
Task 223: testing particles ...
Task 131: testing particles ...
Task 214: testing particles ...
Task 221: testing particles ...
Task 200: testing particles ...
Task 170: testing particles ...
Task 162: testing particles ...
Task 254: testing particles ...
Task 192: testing particles ...
Task 178: testing particles ...
Task 99: testing particles ...
Task 158: testing particles ...
Task 247: testing particles ...
Task 203: testing particles ...
Task 238: testing particles ...
Task 246: testing particles ...
Task 133: testing particles ...
Task 213: testing particles ...
Task 165: testing particles ...
Task 190: testing particles ...
Task 164: testing particles ...
Task 122: testing particles ...
Task 205: testing particles ...
Task 85: testing particles ...
Task 237: testing particles ...
Task 96: testing particles ...
Task 93: testing particles ...
Task 245: testing particles ...
Task 119: testing particles ...
Task 127: testing particles ...
Task 143: testing particles ...
Task 233: testing particles ...
Task 136: testing particles ...
Task 111: testing particles ...
Task 222: testing particles ...
Task 225: testing particles ...
Task 142: testing particles ...
Task 159: testing particles ...
Task 151: testing particles ...
Task 209: testing particles ...
Task 188: testing particles ...
Task 182: testing particles ...
Task 112: testing particles ...
Task 153: testing particles ...
Task 253: testing particles ...
Task 125: testing particles ...
Task 98: testing particles ...
Task 224: testing particles ...
Task 255: testing particles ...
Task 126: testing particles ...
Task 75: testing particles ...
Task 177: testing particles ...
Task 172: testing particles ...
Task 108: testing particles ...
Task 250: testing particles ...
Task 140: testing particles ...
Task 244: testing particles ...
Task 163: testing particles ...
Task 144: testing particles ...
Task 215: testing particles ...
Task 181: testing particles ...
Task 113: testing particles ...
Task 135: testing particles ...
Task 141: testing particles ...
Task 195: testing particles ...
Task 116: testing particles ...
Task 100: testing particles ...
Task 232: testing particles ...
Task 150: testing particles ...
Task 199: testing particles ...
Task 184: testing particles ...
Task 79: testing particles ...
Task 218: testing particles ...
Task 138: testing particles ...
Task 210: testing particles ...
Task 59: testing particles ...
Task 70: testing particles ...
Task 242: testing particles ...
Task 147: testing particles ...
Task 157: testing particles ...
Task 175: testing particles ...
Task 179: testing particles ...
Task 183: testing particles ...
Task 148: testing particles ...
Task 189: testing particles ...
Task 71: testing particles ...
Task 176: testing particles ...
Task 103: testing particles ...
Task 92: testing particles ...
Task 89: testing particles ...
Task 134: testing particles ...
Task 91: testing particles ...
Task 187: testing particles ...
Task 117: testing particles ...
Task 101: testing particles ...
Task 196: testing particles ...
Task 167: testing particles ...
Task 130: testing particles ...
Task 52: testing particles ...
Task 139: testing particles ...
Task 219: testing particles ...
Task 58: testing particles ...
Task 168: testing particles ...
Task 67: testing particles ...
Task 88: testing particles ...
Task 86: testing particles ...
Task 229: testing particles ...
Task 234: testing particles ...
Task 81: testing particles ...
Task 174: testing particles ...
Task 206: testing particles ...
Task 231: testing particles ...
Task 243: testing particles ...
Task 104: testing particles ...
Task 69: testing particles ...
Task 87: testing particles ...
Task 185: testing particles ...
Task 239: testing particles ...
Task 204: testing particles ...
Task 193: testing particles ...
Task 115: testing particles ...
Task 132: testing particles ...
Task 109: testing particles ...
Task 77: testing particles ...
Task 84: testing particles ...
Task 94: testing particles ...
Task 74: testing particles ...
Task 120: testing particles ...
Task 78: testing particles ...
Task 156: testing particles ...
Task 83: testing particles ...
Task 82: testing particles ...
Task 110: testing particles ...
Task 60: testing particles ...
Task 216: testing particles ...
Task 114: testing particles ...
Task 61: testing particles ...
Task 212: testing particles ...
Task 121: testing particles ...
Task 51: testing particles ...
Task 152: testing particles ...
Task 49: testing particles ...
Task 68: testing particles ...
Task 173: testing particles ...
Task 137: testing particles ...
Task 123: testing particles ...
Task 64: testing particles ...
Task 97: testing particles ...
Task 107: testing particles ...
Task 63: testing particles ...
Task 161: testing particles ...
Task 146: testing particles ...
Task 118: testing particles ...
Task 95: testing particles ...
Task 42: testing particles ...
Task 102: testing particles ...
Task 62: testing particles ...
Task 106: testing particles ...
Task 128: testing particles ...
Task 43: testing particles ...
Task 90: testing particles ...
Task 38: testing particles ...
Task 80: testing particles ...
Task 73: testing particles ...
Task 46: testing particles ...
Task 65: testing particles ...
Task 54: testing particles ...
Task 44: testing particles ...
Task 66: testing particles ...
Task 57: testing particles ...
Task 39: testing particles ...
Task 72: testing particles ...
Task 50: testing particles ...
Task 76: testing particles ...
Task 40: testing particles ...
Task 34: testing particles ...
Task 56: testing particles ...
Task 45: testing particles ...
Task 47: testing particles ...
Task 41: testing particles ...
Task 53: testing particles ...
Task 29: testing particles ...
Task 55: testing particles ...
Task 28: testing particles ...
Task 33: testing particles ...
Task 48: testing particles ...
Task 30: testing particles ...
Task 37: testing particles ...
Task 36: testing particles ...
Task 35: testing particles ...
Task 26: testing particles ...
Task 25: testing particles ...
Task 24: testing particles ...
Task 15: testing particles ...
Task 19: testing particles ...
Task 32: testing particles ...
Task 22: testing particles ...
Task 23: testing particles ...
Task 20: testing particles ...
Task 21: testing particles ...
Task 31: testing particles ...
Task 18: testing particles ...
Task 17: testing particles ...
Task 27: testing particles ...
Task 13: testing particles ...
Task 14: testing particles ...
Task 16: testing particles ...
Task 12: testing particles ...
Task 11: testing particles ...
Task 9: testing particles ...
Task 10: testing particles ...
Task 7: testing particles ...
Task 8: testing particles ...
Task 6: testing particles ...
Task 5: testing particles ...
subfind_exchange() (for return to original CPU)  took 3.47564 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2484.7 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2544.25 MB)
Before=187329
After=205433
NTopleaves= 179754  NTopnodes=205433 (space for 244687)
gravity work-load balance=1.00033   memory-balance=1.00033   SPH work-load balance=0
iter=0 exchange of 0273199390 particles (ret=0)
domain decomposition done. (took 3.94898 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.79691 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000169697 particles. (took 0.0322652 sec)
SO iteration 2: need to repeat for 0000169697 particles. (took 0.0237491 sec)
SO iteration 3: need to repeat for 0000169697 particles. (took 0.0246449 sec)
SO iteration 4: need to repeat for 0000169697 particles. (took 0.0241039 sec)
SO iteration 5: need to repeat for 0000169697 particles. (took 0.0237768 sec)
SO iteration 6: need to repeat for 0000169697 particles. (took 0.02384 sec)
SO iteration 7: need to repeat for 0000169697 particles. (took 0.0245061 sec)
SO iteration 8: need to repeat for 0000169697 particles. (took 0.0237331 sec)
SO iteration 9: need to repeat for 0000169697 particles. (took 0.0236571 sec)
SO iteration 10: need to repeat for 0000169697 particles. (took 0.0240409 sec)
SO iteration 11: need to repeat for 0000169697 particles. (took 0.024344 sec)
SO iteration 12: need to repeat for 0000169697 particles. (took 0.0253119 sec)
SO iteration 13: need to repeat for 0000169697 particles. (took 0.0238011 sec)
SO iteration 14: need to repeat for 0000169697 particles. (took 0.0237548 sec)
SO iteration 15: need to repeat for 0000169218 particles. (took 0.023731 sec)
SO iteration 16: need to repeat for 0000000653 particles. (took 0.023387 sec)
SO iteration 17: need to repeat for 0000000049 particles. (took 0.00114822 sec)
SO iteration 1: need to repeat for 0000169697 particles. (took 0.0242991 sec)
SO iteration 2: need to repeat for 0000169697 particles. (took 0.0213571 sec)
SO iteration 3: need to repeat for 0000169697 particles. (took 0.022589 sec)
SO iteration 4: need to repeat for 0000169697 particles. (took 0.0217671 sec)
SO iteration 5: need to repeat for 0000169697 particles. (took 0.0225871 sec)
SO iteration 6: need to repeat for 0000169697 particles. (took 0.0221651 sec)
SO iteration 7: need to repeat for 0000169697 particles. (took 0.021992 sec)
SO iteration 8: need to repeat for 0000169697 particles. (took 0.0221 sec)
SO iteration 9: need to repeat for 0000169697 particles. (took 0.022172 sec)
SO iteration 10: need to repeat for 0000169697 particles. (took 0.0220082 sec)
SO iteration 11: need to repeat for 0000169697 particles. (took 0.0220931 sec)
SO iteration 12: need to repeat for 0000169697 particles. (took 0.0225229 sec)
SO iteration 13: need to repeat for 0000169697 particles. (took 0.0221179 sec)
SO iteration 14: need to repeat for 0000169697 particles. (took 0.0219722 sec)
SO iteration 15: need to repeat for 0000169583 particles. (took 0.0230682 sec)
SO iteration 16: need to repeat for 0000028142 particles. (took 0.022058 sec)
SO iteration 17: need to repeat for 0000000379 particles. (took 0.00807595 sec)
SO iteration 18: need to repeat for 0000000037 particles. (took 0.00097394 sec)
SO iteration 19: need to repeat for 0000000002 particles. (took 0.000604153 sec)
SO iteration 1: need to repeat for 0000169697 particles. (took 0.0241909 sec)
SO iteration 2: need to repeat for 0000169697 particles. (took 0.0213301 sec)
SO iteration 3: need to repeat for 0000169697 particles. (took 0.0191321 sec)
SO iteration 4: need to repeat for 0000169697 particles. (took 0.0203111 sec)
SO iteration 5: need to repeat for 0000169697 particles. (took 0.019789 sec)
SO iteration 6: need to repeat for 0000169697 particles. (took 0.0197952 sec)
SO iteration 7: need to repeat for 0000169697 particles. (took 0.0197699 sec)
SO iteration 8: need to repeat for 0000169697 particles. (took 0.0198488 sec)
SO iteration 9: need to repeat for 0000169697 particles. (took 0.020478 sec)
SO iteration 10: need to repeat for 0000169697 particles. (took 0.019872 sec)
SO iteration 11: need to repeat for 0000169697 particles. (took 0.0197892 sec)
SO iteration 12: need to repeat for 0000169697 particles. (took 0.0198319 sec)
SO iteration 13: need to repeat for 0000169697 particles. (took 0.0199139 sec)
SO iteration 14: need to repeat for 0000169697 particles. (took 0.020174 sec)
SO iteration 15: need to repeat for 0000169686 particles. (took 0.019927 sec)
SO iteration 16: need to repeat for 0000169663 particles. (took 0.0197389 sec)
SO iteration 17: need to repeat for 0000049478 particles. (took 0.019757 sec)
SO iteration 18: need to repeat for 0000000940 particles. (took 0.0100741 sec)
SO iteration 19: need to repeat for 0000000072 particles. (took 0.00115108 sec)
SO iteration 20: need to repeat for 0000000001 particles. (took 0.000553131 sec)
SO iteration 1: need to repeat for 0000169697 particles. (took 0.0241299 sec)
SO iteration 2: need to repeat for 0000169697 particles. (took 0.0216582 sec)
SO iteration 3: need to repeat for 0000169697 particles. (took 0.0229421 sec)
SO iteration 4: need to repeat for 0000169697 particles. (took 0.0236459 sec)
SO iteration 5: need to repeat for 0000169697 particles. (took 0.0232608 sec)
SO iteration 6: need to repeat for 0000169697 particles. (took 0.0370221 sec)
SO iteration 7: need to repeat for 0000169697 particles. (took 0.02683 sec)
SO iteration 8: need to repeat for 0000169697 particles. (took 0.035192 sec)
SO iteration 9: need to repeat for 0000169697 particles. (took 0.043828 sec)
SO iteration 10: need to repeat for 0000169697 particles. (took 0.0256169 sec)
SO iteration 11: need to repeat for 0000169697 particles. (took 0.023473 sec)
SO iteration 12: need to repeat for 0000169697 particles. (took 0.0245881 sec)
SO iteration 13: need to repeat for 0000169697 particles. (took 0.0231349 sec)
SO iteration 14: need to repeat for 0000169697 particles. (took 0.023248 sec)
SO iteration 15: need to repeat for 0000169333 particles. (took 0.0232539 sec)
SO iteration 16: need to repeat for 0000001188 particles. (took 0.0232611 sec)
SO iteration 17: need to repeat for 0000000069 particles. (took 0.00140095 sec)
SO iteration 18: need to repeat for 0000000003 particles. (took 0.000663042 sec)
SO iteration 1: need to repeat for 0000169697 particles. (took 0.0241339 sec)
SO iteration 2: need to repeat for 0000169697 particles. (took 0.021559 sec)
SO iteration 3: need to repeat for 0000169697 particles. (took 0.022625 sec)
SO iteration 4: need to repeat for 0000169697 particles. (took 0.0226691 sec)
SO iteration 5: need to repeat for 0000169697 particles. (took 0.022537 sec)
SO iteration 6: need to repeat for 0000169697 particles. (took 0.022532 sec)
SO iteration 7: need to repeat for 0000169697 particles. (took 0.0225511 sec)
SO iteration 8: need to repeat for 0000169697 particles. (took 0.022521 sec)
SO iteration 9: need to repeat for 0000169697 particles. (took 0.022517 sec)
SO iteration 10: need to repeat for 0000169697 particles. (took 0.022603 sec)
SO iteration 11: need to repeat for 0000169697 particles. (took 0.0224719 sec)
SO iteration 12: need to repeat for 0000169697 particles. (took 0.022594 sec)
SO iteration 13: need to repeat for 0000169697 particles. (took 0.022696 sec)
SO iteration 14: need to repeat for 0000169697 particles. (took 0.0225751 sec)
SO iteration 15: need to repeat for 0000169492 particles. (took 0.0225289 sec)
SO iteration 16: need to repeat for 0000005857 particles. (took 0.022464 sec)
SO iteration 17: need to repeat for 0000000165 particles. (took 0.0031662 sec)
SO iteration 18: need to repeat for 0000000019 particles. (took 0.000697851 sec)
SO iteration 1: need to repeat for 0000169697 particles. (took 0.0242171 sec)
SO iteration 2: need to repeat for 0000169697 particles. (took 0.0213912 sec)
SO iteration 3: need to repeat for 0000169697 particles. (took 0.0214369 sec)
SO iteration 4: need to repeat for 0000169697 particles. (took 0.021138 sec)
SO iteration 5: need to repeat for 0000169697 particles. (took 0.0216761 sec)
SO iteration 6: need to repeat for 0000169697 particles. (took 0.0219262 sec)
SO iteration 7: need to repeat for 0000169697 particles. (took 0.021168 sec)
SO iteration 8: need to repeat for 0000169697 particles. (took 0.021287 sec)
SO iteration 9: need to repeat for 0000169697 particles. (took 0.0215261 sec)
SO iteration 10: need to repeat for 0000169697 particles. (took 0.0214052 sec)
SO iteration 11: need to repeat for 0000169697 particles. (took 0.021539 sec)
SO iteration 12: need to repeat for 0000169697 particles. (took 0.0215981 sec)
SO iteration 13: need to repeat for 0000169697 particles. (took 0.022017 sec)
SO iteration 14: need to repeat for 0000169697 particles. (took 0.0219822 sec)
SO iteration 15: need to repeat for 0000169654 particles. (took 0.0216339 sec)
SO iteration 16: need to repeat for 0000169484 particles. (took 0.0211251 sec)
SO iteration 17: need to repeat for 0000001775 particles. (took 0.0210991 sec)
SO iteration 18: need to repeat for 0000000130 particles. (took 0.00145507 sec)
SO iteration 19: need to repeat for 0000000006 particles. (took 0.000633001 sec)
SO iteration 1: need to repeat for 0000169697 particles. (took 0.024086 sec)
SO iteration 2: need to repeat for 0000169697 particles. (took 0.0213151 sec)
SO iteration 3: need to repeat for 0000169697 particles. (took 0.019208 sec)
SO iteration 4: need to repeat for 0000169697 particles. (took 0.0191479 sec)
SO iteration 5: need to repeat for 0000169697 particles. (took 0.01914 sec)
SO iteration 6: need to repeat for 0000169697 particles. (took 0.019084 sec)
SO iteration 7: need to repeat for 0000169697 particles. (took 0.018965 sec)
SO iteration 8: need to repeat for 0000169697 particles. (took 0.0191741 sec)
SO iteration 9: need to repeat for 0000169697 particles. (took 0.0191929 sec)
SO iteration 10: need to repeat for 0000169697 particles. (took 0.019001 sec)
SO iteration 11: need to repeat for 0000169697 particles. (took 0.0189979 sec)
SO iteration 12: need to repeat for 0000169697 particles. (took 0.018997 sec)
SO iteration 13: need to repeat for 0000169697 particles. (took 0.018971 sec)
SO iteration 14: need to repeat for 0000169697 particles. (took 0.019098 sec)
SO iteration 15: need to repeat for 0000169694 particles. (took 0.0190859 sec)
SO iteration 16: need to repeat for 0000169683 particles. (took 0.0190091 sec)
SO iteration 17: need to repeat for 0000160418 particles. (took 0.018986 sec)
SO iteration 18: need to repeat for 0000005949 particles. (took 0.0189052 sec)
SO iteration 19: need to repeat for 0000000196 particles. (took 0.00255919 sec)
SO iteration 20: need to repeat for 0000000012 particles. (took 0.000643969 sec)
determining spherical overdensity masses took 2.64033 sec
finding spherical overdensity particles took 0.565962 sec
determining contamination of halos took 0.267801 sec
Global sort of Groups took 0.1656 sec
Global sort of SubGroups took 0.664284 sec
Global sort of IDs took 0.586895 sec
Writing block 0 (GLEN), n=806, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3224d
Writing block 1 (GOFF), n=806, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3224d
Writing block 2 (MTOT), n=806, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3224d
Writing block 3 (GPOS), n=806, ptype=0, dtype=1, ndim=3, bpb=4 bytes=9672d
Writing block 4 (MMEA), n=806, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3224d
Writing block 5 (RMEA), n=806, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3224d
Writing block 6 (MCRI), n=806, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3224d
Writing block 7 (RCRI), n=806, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3224d
Writing block 8 (MTOP), n=806, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3224d
Writing block 9 (RTOP), n=806, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3224d
Writing block 17 (NCON), n=806, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3224d
Writing block 18 (MCON), n=806, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3224d
Writing block 22 (NSUB), n=806, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3224d
Writing block 23 (FSUB), n=806, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3224d
Writing block 24 (SLEN), n=4265, ptype=1, dtype=0, ndim=1, bpb=4 bytes=17060d
Writing block 25 (SOFF), n=4265, ptype=1, dtype=0, ndim=1, bpb=4 bytes=17060d
Writing block 27 (MSUB), n=4265, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 28 (SPOS), n=4265, ptype=1, dtype=1, ndim=3, bpb=4 bytes=51180d
Writing block 29 (SVEL), n=4265, ptype=1, dtype=1, ndim=3, bpb=4 bytes=51180d
Writing block 30 (SCM ), n=4265, ptype=1, dtype=1, ndim=3, bpb=4 bytes=51180d
Writing block 33 (VMAX), n=4265, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 34 (RMAX), n=4265, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 35 (RHMS), n=4265, ptype=1, dtype=1, ndim=6, bpb=4 bytes=102360d
Writing block 36 (MTRH), n=4265, ptype=1, dtype=1, ndim=6, bpb=4 bytes=102360d
Writing block 37 (MBID), n=4265, ptype=1, dtype=2, ndim=1, bpb=8 bytes=34120d
Writing block 38 (GRNR), n=4265, ptype=1, dtype=0, ndim=1, bpb=4 bytes=17060d
Writing block 39 (SUBN), n=4265, ptype=1, dtype=0, ndim=1, bpb=4 bytes=17060d
Writing block 40 (SMST), n=4265, ptype=1, dtype=1, ndim=6, bpb=4 bytes=102360d
Writing block 53 (PID ), n=549225, ptype=2, dtype=2, ndim=1, bpb=8 bytes=4393800d
Writing block 54 (SLEN), n=4265, ptype=1, dtype=0, ndim=6, bpb=4 bytes=102360d
Writing block 55 (STEN), n=4265, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 56 (SKEN), n=4265, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 57 (SUEN), n=4265, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 58 (SUIT), n=4265, ptype=1, dtype=1, ndim=9, bpb=4 bytes=153540d
Writing block 59 (BHMA), n=4265, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 60 (BHMD), n=4265, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 61 (SVD ), n=4265, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 62 (SVDH), n=4265, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 63 (HMPR), n=4265, ptype=1, dtype=1, ndim=6, bpb=4 bytes=102360d
Writing block 64 (SSFR), n=4265, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 65 (SSA ), n=4265, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 66 (SSBZ), n=4265, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 67 (SSIM), n=4265, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 68 (SSPI), n=4265, ptype=4, dtype=1, ndim=3, bpb=4 bytes=51180d
Writing block 69 (GSPI), n=4265, ptype=1, dtype=1, ndim=3, bpb=4 bytes=51180d
Writing block 70 (FSPI), n=4265, ptype=5, dtype=1, ndim=3, bpb=4 bytes=51180d
Writing block 71 (SFM ), n=4265, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 72 (SFMT), n=4265, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 73 (SFME), n=4265, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 74 (SFAE), n=4265, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 75 (SFKE), n=4265, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 76 (SFTE), n=4265, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 77 (SMWP), n=4265, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 78 (SMM ), n=4265, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 79 (SMMS), n=4265, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 80 (SFZ ), n=4265, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 81 (SFZS), n=4265, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 82 (SSIA), n=4265, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 83 (SIAS), n=4265, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 84 (SMET), n=4265, ptype=5, dtype=1, ndim=9, bpb=4 bytes=153540d
Writing block 85 (SMTS), n=4265, ptype=5, dtype=1, ndim=9, bpb=4 bytes=153540d
Writing block 86 (MF1 ), n=4265, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 87 (MeF1), n=4265, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 88 (MF  ), n=4265, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 89 (MeF2), n=4265, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 90 (MFA ), n=4265, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 91 (MeFA), n=4265, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 92 (NSPI), n=4265, ptype=6, dtype=1, ndim=3, bpb=4 bytes=51180d
Writing block 93 (NFM ), n=4265, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 94 (NFMT), n=4265, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 95 (NFME), n=4265, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 96 (NFAE), n=4265, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 97 (NFKE), n=4265, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 98 (NFTE), n=4265, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 99 (SMWP), n=4265, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 100 (SMM ), n=4265, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 101 (SMMS), n=4265, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 102 (SSIA), n=4265, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 103 (SIAS), n=4265, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 104 (SMET), n=4265, ptype=6, dtype=1, ndim=9, bpb=4 bytes=153540d
Writing block 105 (SMTS), n=4265, ptype=6, dtype=1, ndim=9, bpb=4 bytes=153540d
Writing block 106 (MF1 ), n=4265, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 107 (MeF1), n=4265, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 108 (MF2 ), n=4265, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 109 (MeF2), n=4265, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 110 (MFA ), n=4265, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 111 (MeFA), n=4265, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 112 (SM  ), n=4265, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 113 (SFKE), n=4265, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 114 (SFAE), n=4265, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 115 (SMWP), n=4265, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 116 (SMM ), n=4265, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 117 (SMMS), n=4265, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 118 (SSIA), n=4265, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 119 (SIAS), n=4265, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 120 (SMET), n=4265, ptype=4, dtype=1, ndim=9, bpb=4 bytes=153540d
Writing block 121 (SMTS), n=4265, ptype=4, dtype=1, ndim=9, bpb=4 bytes=153540d
Writing block 122 (MF1 ), n=4265, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 123 (MeF1), n=4265, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 124 (MF2 ), n=4265, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 125 (MeF2), n=4265, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 126 (MFA ), n=4265, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 127 (MeFA), n=4265, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17060d
Writing block 128 (MMe5), n=806, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3224d
Writing block 129 (RMe5), n=806, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3224d
Writing block 130 (MCr5), n=806, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3224d
Writing block 131 (RCr5), n=806, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3224d
Writing block 132 (MMe2), n=806, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3224d
Writing block 133 (RMe2), n=806, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3224d
Writing block 134 (MCr2), n=806, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3224d
Writing block 135 (RCr2), n=806, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3224d
Writing block 136 (MAPT), n=4265, ptype=7, dtype=1, ndim=60, bpb=4 bytes=1023600d
Writing block 137 (SAPT), n=4265, ptype=8, dtype=1, ndim=10, bpb=4 bytes=170600d
Writing block 138 (VAPT), n=4265, ptype=9, dtype=1, ndim=10, bpb=4 bytes=170600d
Writing block 139 (BEGY), n=549225, ptype=2, dtype=1, ndim=1, bpb=4 bytes=2196900d
Subgroup catalogues saved. took = 6.78216 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 6.642098e-01
 eagle_ph_key_ort: type= 2 timed by volker 6.093597e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.623604e-02
 eagle_ph_key_ort: type= 4 timed by volker 4.623604e-02
 eagle_ph_key_ort: type= 5 timed by volker 4.623604e-02
 eagle_ph_key_ort: timing parallel sort = 7.794359e-01
 eagle_fetch_elements: we are using 1208623916 bytes of memory, FreeBytes= 1510779896

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 2509.21 Mbyte (on task=0), Smallest = 1318.79 Mbyte, Average = 1351.05 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9774    1202.9914  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5317    1227.5231  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8862    1268.4093  fof_fof()/fof.c/337
   0 2975 0             Group      1.0075    1269.4168  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1215.2791    2484.6959  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5121    2509.2080  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1327761 number of bytes = 424883520

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3661.63 Mbyte (on task=0), Smallest = 2471.26 Mbyte, Average = 2503.57 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9774    1202.9914  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5317    1227.5231  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8862    1268.4093  fof_fof()/fof.c/337
   0 2975 0             Group      1.0075    1269.4168  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1215.2791    2484.6959  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5121    2509.2080  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      5.0650    2514.2730  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      5.0650    2519.3380  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      5.0650    2524.4030  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    405.2005    2929.6035  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    405.2005    3334.8040  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    326.8280    3661.6320  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.453389e+00
 eagle_fetch_elements: we are using 1208623916 bytes of memory, FreeBytes= 1510779896
 eagle_fetch_elements: max_bytes= 504, max_elements= 1184925 number of bytes = 597202200
 eagle_ph_key_ort: timing parallel SphP exchange = 1.811028e-03
 eagle_fetch_elements: we are using 1208623916 bytes of memory, FreeBytes= 1510779896
 eagle_fetch_elements: max_bytes= 384, max_elements= 1549517 number of bytes = 595014528
 eagle_ph_key_ort: timing parallel MetP exchange = 5.240440e-04
 eagle_fetch_elements: we are using 1208623916 bytes of memory, FreeBytes= 1510779896
 eagle_fetch_elements: max_bytes= 256, max_elements= 2306534 number of bytes = 590472704
 eagle_ph_key_ort: timing parallel BHP exchange = 4.889965e-04
Sorting particle-data by peano-hilbert key took = 3.61466 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1208623916 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1327761 number of bytes= 424883520
 eagle_ph_restore: timing parallel P exchange = 2.350876e+00
 eagle_send_elements: we are using 1208623916 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1184925 number of bytes= 597202200
 eagle_ph_restore: timing parallel SphP exchange = 1.075983e-03
 eagle_send_elements: we are using 1208623916 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1549517 number of bytes= 595014528
 eagle_ph_restore: timing parallel MetP exchange = 6.880760e-04
 eagle_send_elements: we are using 1208623916 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 2306534 number of bytes= 590472704
 eagle_ph_restore: timing parallel BHP exchange = 6.299019e-04
Restoring original order after ph key sorting took = 2.36974 sec

finished writing particle file...

Finished with SUBFIND.  (total time=3952.45 sec)

Finished computing FoF groups.  (presently allocated=1202.99 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=180977
After=201033
NTopleaves= 175904  NTopnodes=201033 (space for 244687)
gravity work-load balance=1.00056   memory-balance=1.00056   SPH work-load balance=0
iter=0 exchange of 0273216835 particles (ret=0)
domain decomposition done. (took 3.87273 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.99832 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
task 16: endrun called with an error level of 124


task 16: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
task 64: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
task 64: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 128: endrun called with an error level of 124


task 128: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
task 160: endrun called with an error level of 124


task 160: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 176: endrun called with an error level of 124


task 176: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
task 192: endrun called with an error level of 124


task 192: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
Finished FOF, total time doing fof/subfind = 4006.69 s
task 0: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.94 Mb (on task=112), Smallest =   62646.69 Mb (on task=0), Average =   62686.80 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1885.37 Mb (on task=0), Smallest =    1798.12 Mb (on task=112), Average =    1845.28 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16342.36 Mb (on task=0), Average =   16352.18 Mb
AllocMem:	 Largest =    1885.37 Mb (on task=0), Smallest =    1798.12 Mb (on task=112), Average =    1845.28 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_018_z000p411/snap_018_z000p411.0.hdf5' on task=0 (contains 17236748 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  17093284  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     36034  (tot=     0000303834) masstab=0
Type 3 (bulge):   107430  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.719693

Setting next time for line of sight file to Time_next= 0.712998

Setting next time for snipshot file to Time_next= 0.716592

Setting next time for fof output to Time_next= 0.716592
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.15327 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=196569
After=199337
NTopleaves= 174420  NTopnodes=199337 (space for 244687)
gravity work-load balance=1.00035   memory-balance=1.00035   SPH work-load balance=0
iter=0 exchange of 0273071959 particles (ret=0)
domain decomposition done. (took 10.4514 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.07596 MByte in top-level domain structure

Allocated 503.364 MByte for BH-tree, and 0.665359 Mbyte for top-leaves.  (presently allocted 1706.93 MB)

Begin Ngb-tree construction.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1753.1 Mbyte (on task=167), Smallest = 1753.06 Mbyte, Average = 1753.1 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 167 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
 167 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
 167 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
 167 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
 167 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
 167 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
 167 2972 0          TopNodes      9.8853    1202.9004  domain_allocate()/domain.c/570
 167 2973 0   DomainNodeIndex      0.6654    1203.5657  force_treeallocate()/forcetree.c/4800
 167 2974 0        Nodes_base    258.5438    1462.1096  force_treeallocate()/forcetree.c/4803
 167 2975 0     Extnodes_base    215.4532    1677.5628  force_treeallocate()/forcetree.c/4811
 167 2976 0          Nextnode     15.0636    1692.6264  force_treeallocate()/forcetree.c/4820
 167 2977 0            Father     14.3032    1706.9296  force_treeallocate()/forcetree.c/4827
 167 2978 0           Ngblist      4.0881    1711.0176  density()/density.c/690
 167 2979 0              Left      8.1761    1719.1937  density()/density.c/692
 167 2980 0             Right      8.1761    1727.3698  density()/density.c/693
 167 2981 0    DataIndexTable      7.0175    1734.3874  density()/density.c/738
 167 2982 0      DataNodeList     18.7134    1753.1008  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.399.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.468.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.93 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=181185
After=201249
NTopleaves= 176093  NTopnodes=201249 (space for 244687)
gravity work-load balance=1.00057   memory-balance=1.00057   SPH work-load balance=0
iter=0 exchange of 0273043304 particles (ret=0)
domain decomposition done. (took 3.84302 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.98843 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1202.99 MB)
Tree construction.

Start linking particles (presently allocated=1756.17 MB)
links on local processor done (took 8.3234 sec).
Marked=0059304870 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1857.7 MB) 
have done 0001011215 cross links (processed 0059304870, took 4.46896 sec)
have done 0000439951 cross links (processed 0045678360, took 4.27469 sec)
have done 0000308793 cross links (processed 0037775145, took 3.35671 sec)
have done 0000203275 cross links (processed 0026850866, took 3.24397 sec)
have done 0000129774 cross links (processed 0018159704, took 2.85885 sec)
have done 0000085441 cross links (processed 0011935674, took 2.91607 sec)
have done 0000057562 cross links (processed 0006341284, took 2.09359 sec)
have done 0000039349 cross links (processed 0003821241, took 1.69365 sec)
have done 0000029486 cross links (processed 0003727991, took 2.1301 sec)
have done 0000019448 cross links (processed 0002488521, took 0.814602 sec)
have done 0000013719 cross links (processed 0002247171, took 1.6767 sec)
have done 0000011293 cross links (processed 0001530100, took 0.821924 sec)
have done 0000007011 cross links (processed 0000500852, took 0.264061 sec)
have done 0000002657 cross links (processed 0000061041, took 0.0801671 sec)
have done 0000000915 cross links (processed 0000018079, took 0.049 sec)
have done 0000000354 cross links (processed 0000007370, took 0.0485721 sec)
have done 0000000133 cross links (processed 0000001604, took 0.0446851 sec)
have done 0000000036 cross links (processed 0000000538, took 0.044451 sec)
have done 0000000030 cross links (processed 0000000229, took 0.044369 sec)
have done 0000000021 cross links (processed 0000000158, took 0.044421 sec)
have done 0000000011 cross links (processed 0000000085, took 0.044347 sec)
have done 0000000004 cross links (processed 0000000044, took 0.044446 sec)
have done 0000000002 cross links (processed 0000000019, took 0.044733 sec)
have done 0000000000 cross links (processed 0000000006, took 0.0443571 sec)
Local groups found.

group finding took = 39.5931 sec
Start finding nearest dm-particle (presently allocated=1756.17 MB)
still finding nearest... (presently allocated=1845.57 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.109867 sec
compiling local group data and catalogue took = 0.621602 sec

Total number of groups with at least 32 particles: 203305
Largest group has 11106543 particles.
Total number of particles in groups: 0136646671

group properties are now allocated.. (presently allocated=1269.35 MB)
computation of group properties took = 0.0738559 sec
start global sorting of group catalogues number 18
LargestGroup = 8742.728645; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0517192 sec
Group catalogues globally sorted. took = 0.861562 sec
starting saving of group catalogue number 18
data//groups_018_z000p411
Group catalogues number 18 saved. took = 2.40363 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.722384 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.263228 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.717995 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0190829317 particles. (took 20.46 sec)
ngb iteration 2: need to repeat for 0148538177 particles. (took 9.74148 sec)
ngb iteration 3: need to repeat for 0129531081 particles. (took 7.04212 sec)
ngb iteration 4: need to repeat for 0117565930 particles. (took 5.89392 sec)
ngb iteration 5: need to repeat for 0105054160 particles. (took 5.17013 sec)
ngb iteration 6: need to repeat for 0087808701 particles. (took 4.56961 sec)
ngb iteration 7: need to repeat for 0066577429 particles. (took 3.8972 sec)
ngb iteration 8: need to repeat for 0045876038 particles. (took 3.15141 sec)
ngb iteration 9: need to repeat for 0029316788 particles. (took 2.30597 sec)
ngb iteration 10: need to repeat for 0017779464 particles. (took 1.59035 sec)
ngb iteration 11: need to repeat for 0010441440 particles. (took 1.03028 sec)
ngb iteration 12: need to repeat for 0006026819 particles. (took 0.626533 sec)
ngb iteration 13: need to repeat for 0003449912 particles. (took 0.386328 sec)
ngb iteration 14: need to repeat for 0001878037 particles. (took 0.251602 sec)
ngb iteration 15: need to repeat for 0000888805 particles. (took 0.166736 sec)
ngb iteration 16: need to repeat for 0000448732 particles. (took 0.105985 sec)
ngb iteration 17: need to repeat for 0000236032 particles. (took 0.074625 sec)
ngb iteration 18: need to repeat for 0000126098 particles. (took 0.060303 sec)
ngb iteration 19: need to repeat for 0000067025 particles. (took 0.053833 sec)
ngb iteration 20: need to repeat for 0000034933 particles. (took 0.0476902 sec)
ngb iteration 21: need to repeat for 0000017672 particles. (took 0.044903 sec)
ngb iteration 22: need to repeat for 0000008461 particles. (took 0.0429251 sec)
ngb iteration 23: need to repeat for 0000003943 particles. (took 0.0419261 sec)
ngb iteration 24: need to repeat for 0000001694 particles. (took 0.041091 sec)
ngb iteration 25: need to repeat for 0000000711 particles. (took 0.040565 sec)
ngb iteration 26: need to repeat for 0000000270 particles. (took 0.0410409 sec)
ngb iteration 27: need to repeat for 0000000109 particles. (took 0.0403619 sec)
ngb iteration 28: need to repeat for 0000000034 particles. (took 0.0403101 sec)
ngb iteration 29: need to repeat for 0000000011 particles. (took 0.041122 sec)
ngb iteration 30: need to repeat for 0000000004 particles. (took 0.040205 sec)
ngb iteration 31: need to repeat for 0000000001 particles. (took 0.0402381 sec)
final operations ... 
density and smoothing length for species 1 took 67.4407 sec
Tree construction.
tree build took 0.735948 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.263676 sec
Tree construction.
tree build took 0.717142 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.263636 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.175474 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.99209 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.716006 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.188551 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.99019 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.17678 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.99733 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.989123 sec
saving densities took 1.70215 sec

Number of FOF halos treated with collective SubFind code = 5
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 203300 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 21450 - 62224772 

subfind_exchange()() took 1.73242 sec

collectively doing halo 1, num=18
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2501.46 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2561.01 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 2561.02 Mbyte (on task=0), Smallest = 1353.65 Mbyte, Average = 1387.03 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9802    1202.9942  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.4085    1227.4026  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.6808    1268.0834  fof_fof()/fof.c/337
   0 2975 0             Group      1.2711    1269.3544  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1232.1066    2501.4611  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    2513.7204  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    2542.3268  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    2543.2719  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    2544.2053  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    2545.1387  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    2546.0722  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    2547.0095  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    2547.9468  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    2561.0145  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=131417
After=166729
NTopleaves= 145888  NTopnodes=166729 (space for 244687)
gravity work-load balance=1.00053   memory-balance=1.00053   SPH work-load balance=0
iter=0 exchange of 0011065720 particles (ret=0)
domain decomposition done. (took 1.0068 sec)
Freed 3.56863 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 3008.18 Mbyte (on task=0), Smallest = 1800.81 Mbyte, Average = 1834.19 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9802    1202.9942  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.4085    1227.4026  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.6808    1268.0834  fof_fof()/fof.c/337
   0 2975 0             Group      1.2711    1269.3544  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1232.1066    2501.4611  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.2683    2509.8543  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5565    2510.4109  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    255.5585    2765.9693  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base    212.9654    2978.9347  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9392    2993.8740  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    3008.1772  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.45193 sec  (presently allocated=3008.18 MB)
force_treebuild() took 2.01369 sec (presently allocated=3008.18 MB)
Start find_linkngb (43212 particles on task=0)
find linkngb iteration 1: need to repeat for 0010625820 particles. (took 0.870505 sec)
find linkngb iteration 2: need to repeat for 0009763322 particles. (took 0.612271 sec)
find linkngb iteration 3: need to repeat for 0009312284 particles. (took 0.417166 sec)
find linkngb iteration 4: need to repeat for 0008155802 particles. (took 0.507222 sec)
find linkngb iteration 5: need to repeat for 0006773969 particles. (took 0.402794 sec)
find linkngb iteration 6: need to repeat for 0004903034 particles. (took 0.329979 sec)
find linkngb iteration 7: need to repeat for 0003082697 particles. (took 0.233588 sec)
find linkngb iteration 8: need to repeat for 0001751990 particles. (took 0.148227 sec)
find linkngb iteration 9: need to repeat for 0000938435 particles. (took 0.0908761 sec)
find linkngb iteration 10: need to repeat for 0000486558 particles. (took 0.055023 sec)
find linkngb iteration 11: need to repeat for 0000247228 particles. (took 0.0343921 sec)
find linkngb iteration 12: need to repeat for 0000052315 particles. (took 0.0222869 sec)
find linkngb iteration 13: need to repeat for 0000001002 particles. (took 0.0103402 sec)
find linkngb iteration 14: need to repeat for 0000000322 particles. (took 0.000884056 sec)
find linkngb iteration 15: need to repeat for 0000000114 particles. (took 0.000522852 sec)
find linkngb iteration 16: need to repeat for 0000000039 particles. (took 0.000458002 sec)
find linkngb iteration 17: need to repeat for 0000000010 particles. (took 0.000449896 sec)
find linkngb iteration 18: need to repeat for 0000000003 particles. (took 0.000442982 sec)
find_linkngb() took 3.73881 sec
Start finding nearest two (43212 particles on task=0)
find_nearesttwo() took 0.686573 sec (presently allocated=3011.47 MB)
parallel sort of densities done. took 0.0703051 sec
building distributed linked list. (presently allocated 3011.05 MB)
identification of primary candidates took 285.866 sec
adding background as candidate took 0.160251 sec
establishing of rank order took 86.0462 sec  (p=11106543, grouplen=11106543) presently allocated 3011.05 MB

total number of subhalo candidates=52273

number of subhalo candidates that can be done independently=46009.
(Largest size is 2811, finding them took 0.014401 sec)
particles are marked (took 62.8307)
independent subhalos are assembled on individual CPUs for unbinding (0.191405 sec, (presently allocated=3011.05 MB)
unbinding of independent ones took 0.0791199 sec
particles have returned to their original processor (0.251471 sec, presently allocated 3011.05 MB)

number of subhalo candidates that can be done independently=5756.
(Largest size is 38720, finding them took 1.04996 sec)
particles are marked (took 42.3183)
independent subhalos are assembled on individual CPUs for unbinding (0.178296 sec, (presently allocated=3011.05 MB)
unbinding of independent ones took 0.876962 sec
particles have returned to their original processor (0.240433 sec, presently allocated 3011.05 MB)

number of subhalo candidates that can be done independently=469.
(Largest size is 42171, finding them took 1.06764 sec)
particles are marked (took 33.2482)
independent subhalos are assembled on individual CPUs for unbinding (0.168237 sec, (presently allocated=3011.05 MB)
unbinding of independent ones took 1.41811 sec
particles have returned to their original processor (0.23209 sec, presently allocated 3011.05 MB)

number of subhalo candidates that can be done independently=35.
(Largest size is 101340, finding them took 1.16507 sec)
particles are marked (took 29.8501)
independent subhalos are assembled on individual CPUs for unbinding (0.165844 sec, (presently allocated=3011.05 MB)
unbinding of independent ones took 3.55835 sec
particles have returned to their original processor (0.235154 sec, presently allocated 3011.05 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 1514106, finding them took 0.549307 sec)
too big candidates, I do the rest collectively

collective unbinding of nr=0 (4) of length=361636 ... maximum alloacted 3011.21 MB
took 9.63716 sec
collective unbinding of nr=1 (4) of length=8824 ... maximum alloacted 3011.21 MB
took 1.30126 sec
collective unbinding of nr=2 (4) of length=1514106 ... maximum alloacted 3011.21 MB
took 24.8541 sec
collective unbinding of nr=3 (4) of length=11106543 ... maximum alloacted 3011.21 MB
took 195.435 sec

the collective unbinding of remaining halos took 254.032 sec

found 3575 bound substructures in FoF group of length 11106543
determination of parent subhalo took 0.0505018 sec (presently allocated 3011.21 MB)
determining substructure properties took 236.116 sec (presently allocated 3011.21 MB)

collectively doing halo 2, num=18
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2501.46 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2561.01 MB)
Before=138497
After=164769
NTopleaves= 144173  NTopnodes=164769 (space for 244687)
gravity work-load balance=1.00054   memory-balance=1.00054   SPH work-load balance=0
iter=0 exchange of 0009000198 particles (ret=0)
domain decomposition done. (took 0.961217 sec)
Freed 3.65836 MByte in top-level domain structure
coldomain_Decomposition() took 1.39808 sec  (presently allocated=3007.74 MB)
force_treebuild() took 1.97068 sec (presently allocated=3007.74 MB)
Start find_linkngb (35291 particles on task=0)
find linkngb iteration 1: need to repeat for 0008775783 particles. (took 0.717621 sec)
find linkngb iteration 2: need to repeat for 0008176483 particles. (took 0.491925 sec)
find linkngb iteration 3: need to repeat for 0007804225 particles. (took 0.334222 sec)
find linkngb iteration 4: need to repeat for 0006855605 particles. (took 0.380628 sec)
find linkngb iteration 5: need to repeat for 0005702763 particles. (took 0.324111 sec)
find linkngb iteration 6: need to repeat for 0004130263 particles. (took 0.27663 sec)
find linkngb iteration 7: need to repeat for 0002598680 particles. (took 0.188602 sec)
find linkngb iteration 8: need to repeat for 0001477508 particles. (took 0.122559 sec)
find linkngb iteration 9: need to repeat for 0000790990 particles. (took 0.0759032 sec)
find linkngb iteration 10: need to repeat for 0000409068 particles. (took 0.0461409 sec)
find linkngb iteration 11: need to repeat for 0000207841 particles. (took 0.029084 sec)
find linkngb iteration 12: need to repeat for 0000044168 particles. (took 0.019279 sec)
find linkngb iteration 13: need to repeat for 0000000900 particles. (took 0.0097599 sec)
find linkngb iteration 14: need to repeat for 0000000272 particles. (took 0.000813961 sec)
find linkngb iteration 15: need to repeat for 0000000091 particles. (took 0.00049305 sec)
find linkngb iteration 16: need to repeat for 0000000018 particles. (took 0.000459909 sec)
find linkngb iteration 17: need to repeat for 0000000004 particles. (took 0.000409842 sec)
find_linkngb() took 3.01968 sec
Start finding nearest two (35291 particles on task=0)
find_nearesttwo() took 0.60286 sec (presently allocated=3010.43 MB)
parallel sort of densities done. took 0.0640051 sec
building distributed linked list. (presently allocated 3010.08 MB)
identification of primary candidates took 225.877 sec
adding background as candidate took 0.157818 sec
establishing of rank order took 71.3589 sec  (p=9031139, grouplen=9031139) presently allocated 3010.08 MB

total number of subhalo candidates=42767

number of subhalo candidates that can be done independently=37525.
(Largest size is 3820, finding them took 0.011487 sec)
particles are marked (took 51.4127)
independent subhalos are assembled on individual CPUs for unbinding (0.182865 sec, (presently allocated=3010.08 MB)
unbinding of independent ones took 0.0908151 sec
particles have returned to their original processor (0.244462 sec, presently allocated 3010.08 MB)

number of subhalo candidates that can be done independently=4815.
(Largest size is 13016, finding them took 1.0282 sec)
particles are marked (took 33.9979)
independent subhalos are assembled on individual CPUs for unbinding (0.174312 sec, (presently allocated=3010.08 MB)
unbinding of independent ones took 0.460316 sec
particles have returned to their original processor (0.236794 sec, presently allocated 3010.08 MB)

number of subhalo candidates that can be done independently=390.
(Largest size is 35739, finding them took 1.01886 sec)
particles are marked (took 26.4401)
independent subhalos are assembled on individual CPUs for unbinding (0.163757 sec, (presently allocated=3010.08 MB)
unbinding of independent ones took 1.13631 sec
particles have returned to their original processor (0.226631 sec, presently allocated 3010.08 MB)

number of subhalo candidates that can be done independently=32.
(Largest size is 127649, finding them took 0.978118 sec)
particles are marked (took 28.1494)
independent subhalos are assembled on individual CPUs for unbinding (0.177329 sec, (presently allocated=3010.08 MB)
unbinding of independent ones took 3.42364 sec
particles have returned to their original processor (0.248232 sec, presently allocated 3010.08 MB)

number of subhalo candidates that can be done independently=3.
(Largest size is 311088, finding them took 0.537676 sec)
particles are marked (took 20.4597)
independent subhalos are assembled on individual CPUs for unbinding (0.155154 sec, (presently allocated=3010.08 MB)
unbinding of independent ones took 0.940995 sec
particles have returned to their original processor (0.223747 sec, presently allocated 3010.08 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 311088, finding them took 0.550784 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=311088 ... maximum alloacted 3010.21 MB
took 6.03217 sec
collective unbinding of nr=1 (2) of length=9031139 ... maximum alloacted 3010.21 MB
took 161.245 sec

the collective unbinding of remaining halos took 186.066 sec

found 2756 bound substructures in FoF group of length 9031139
determination of parent subhalo took 0.045392 sec (presently allocated 3010.21 MB)
determining substructure properties took 179.577 sec (presently allocated 3010.21 MB)

collectively doing halo 3, num=18
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2501.46 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2561.01 MB)
Before=137497
After=166105
NTopleaves= 145342  NTopnodes=166105 (space for 244687)
gravity work-load balance=1.0005   memory-balance=1.0005   SPH work-load balance=0
iter=0 exchange of 0006936171 particles (ret=0)
domain decomposition done. (took 0.952424 sec)
Freed 3.5972 MByte in top-level domain structure
coldomain_Decomposition() took 1.39108 sec  (presently allocated=3008.04 MB)
force_treebuild() took 1.93834 sec (presently allocated=3008.04 MB)
Start find_linkngb (27072 particles on task=0)
find linkngb iteration 1: need to repeat for 0006842559 particles. (took 0.524251 sec)
find linkngb iteration 2: need to repeat for 0006495853 particles. (took 0.36619 sec)
find linkngb iteration 3: need to repeat for 0006204918 particles. (took 0.248565 sec)
find linkngb iteration 4: need to repeat for 0005481547 particles. (took 0.287314 sec)
find linkngb iteration 5: need to repeat for 0004572362 particles. (took 0.242189 sec)
find linkngb iteration 6: need to repeat for 0003318023 particles. (took 0.210669 sec)
find linkngb iteration 7: need to repeat for 0002088467 particles. (took 0.143929 sec)
find linkngb iteration 8: need to repeat for 0001188338 particles. (took 0.096539 sec)
find linkngb iteration 9: need to repeat for 0000637223 particles. (took 0.0593491 sec)
find linkngb iteration 10: need to repeat for 0000330250 particles. (took 0.0373781 sec)
find linkngb iteration 11: need to repeat for 0000167699 particles. (took 0.024143 sec)
find linkngb iteration 12: need to repeat for 0000035325 particles. (took 0.0167129 sec)
find linkngb iteration 13: need to repeat for 0000000786 particles. (took 0.00894189 sec)
find linkngb iteration 14: need to repeat for 0000000184 particles. (took 0.000706911 sec)
find linkngb iteration 15: need to repeat for 0000000056 particles. (took 0.000468016 sec)
find linkngb iteration 16: need to repeat for 0000000012 particles. (took 0.00040102 sec)
find linkngb iteration 17: need to repeat for 0000000003 particles. (took 0.000382185 sec)
find_linkngb() took 2.26906 sec
Start finding nearest two (27072 particles on task=0)
find_nearesttwo() took 0.476103 sec (presently allocated=3010.1 MB)
parallel sort of densities done. took 0.055969 sec
building distributed linked list. (presently allocated 3009.83 MB)
identification of primary candidates took 180.393 sec
adding background as candidate took 0.157161 sec
establishing of rank order took 56.0702 sec  (p=6960507, grouplen=6960507) presently allocated 3009.83 MB

total number of subhalo candidates=30607

number of subhalo candidates that can be done independently=27331.
(Largest size is 2456, finding them took 0.00825405 sec)
particles are marked (took 37.6375)
independent subhalos are assembled on individual CPUs for unbinding (0.172045 sec, (presently allocated=3009.83 MB)
unbinding of independent ones took 0.0456181 sec
particles have returned to their original processor (0.231902 sec, presently allocated 3009.83 MB)

number of subhalo candidates that can be done independently=3000.
(Largest size is 18289, finding them took 1.00914 sec)
particles are marked (took 24.3625)
independent subhalos are assembled on individual CPUs for unbinding (0.168842 sec, (presently allocated=3009.83 MB)
unbinding of independent ones took 0.432988 sec
particles have returned to their original processor (0.229553 sec, presently allocated 3009.83 MB)

number of subhalo candidates that can be done independently=246.
(Largest size is 54737, finding them took 0.99554 sec)
particles are marked (took 21.6214)
independent subhalos are assembled on individual CPUs for unbinding (0.168689 sec, (presently allocated=3009.83 MB)
unbinding of independent ones took 1.73299 sec
particles have returned to their original processor (0.233741 sec, presently allocated 3009.83 MB)

number of subhalo candidates that can be done independently=23.
(Largest size is 342425, finding them took 0.533969 sec)
particles are marked (took 15.8364)
independent subhalos are assembled on individual CPUs for unbinding (0.158235 sec, (presently allocated=3009.83 MB)
unbinding of independent ones took 1.70078 sec
particles have returned to their original processor (0.224242 sec, presently allocated 3009.83 MB)

number of subhalo candidates that can be done independently=3.
(Largest size is 342425, finding them took 0.527136 sec)
particles are marked (took 14.8156)
independent subhalos are assembled on individual CPUs for unbinding (0.167876 sec, (presently allocated=3009.83 MB)
unbinding of independent ones took 0.847766 sec
particles have returned to their original processor (0.217037 sec, presently allocated 3009.83 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 342425, finding them took 0.525715 sec)
too few, I do the rest of 4 collectively

collective unbinding of nr=0 (4) of length=299177 ... maximum alloacted 3009.94 MB
took 6.7926 sec
collective unbinding of nr=1 (4) of length=342425 ... maximum alloacted 3009.94 MB
took 7.88595 sec
collective unbinding of nr=2 (4) of length=242996 ... maximum alloacted 3009.94 MB
took 7.69054 sec
collective unbinding of nr=3 (4) of length=6960507 ... maximum alloacted 3009.94 MB
took 129.142 sec

the collective unbinding of remaining halos took 164.857 sec

found 2558 bound substructures in FoF group of length 6960507
determination of parent subhalo took 0.041312 sec (presently allocated 3009.94 MB)
determining substructure properties took 150.062 sec (presently allocated 3009.94 MB)

collectively doing halo 4, num=18
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2501.46 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2561.01 MB)
Before=141481
After=168985
NTopleaves= 147862  NTopnodes=168985 (space for 244687)
gravity work-load balance=1.00046   memory-balance=1.00046   SPH work-load balance=0
iter=0 exchange of 0004710075 particles (ret=0)
domain decomposition done. (took 0.95517 sec)
Freed 3.46536 MByte in top-level domain structure
coldomain_Decomposition() took 1.39611 sec  (presently allocated=3008.68 MB)
force_treebuild() took 1.94425 sec (presently allocated=3008.68 MB)
Start find_linkngb (18467 particles on task=0)
find linkngb iteration 1: need to repeat for 0004693895 particles. (took 0.347667 sec)
find linkngb iteration 2: need to repeat for 0004549315 particles. (took 0.243603 sec)
find linkngb iteration 3: need to repeat for 0004354079 particles. (took 0.159428 sec)
find linkngb iteration 4: need to repeat for 0003875705 particles. (took 0.181224 sec)
find linkngb iteration 5: need to repeat for 0003243529 particles. (took 0.156767 sec)
find linkngb iteration 6: need to repeat for 0002359014 particles. (took 0.129949 sec)
find linkngb iteration 7: need to repeat for 0001487893 particles. (took 0.0972328 sec)
find linkngb iteration 8: need to repeat for 0000846965 particles. (took 0.0658269 sec)
find linkngb iteration 9: need to repeat for 0000454474 particles. (took 0.042717 sec)
find linkngb iteration 10: need to repeat for 0000235598 particles. (took 0.0278399 sec)
find linkngb iteration 11: need to repeat for 0000120067 particles. (took 0.0188398 sec)
find linkngb iteration 12: need to repeat for 0000025896 particles. (took 0.0137038 sec)
find linkngb iteration 13: need to repeat for 0000000587 particles. (took 0.00795388 sec)
find linkngb iteration 14: need to repeat for 0000000155 particles. (took 0.000640869 sec)
find linkngb iteration 15: need to repeat for 0000000046 particles. (took 0.000427008 sec)
find linkngb iteration 16: need to repeat for 0000000014 particles. (took 0.000416994 sec)
find linkngb iteration 17: need to repeat for 0000000002 particles. (took 0.000613928 sec)
find_linkngb() took 1.49575 sec
Start finding nearest two (18467 particles on task=0)
find_nearesttwo() took 0.303311 sec (presently allocated=3010.09 MB)
parallel sort of densities done. took 0.0540841 sec
building distributed linked list. (presently allocated 3009.91 MB)
identification of primary candidates took 126.313 sec
adding background as candidate took 0.158268 sec
establishing of rank order took 39.8891 sec  (p=4728203, grouplen=4728203) presently allocated 3009.91 MB

total number of subhalo candidates=19643

number of subhalo candidates that can be done independently=17602.
(Largest size is 3859, finding them took 0.00546718 sec)
particles are marked (took 24.7042)
independent subhalos are assembled on individual CPUs for unbinding (0.163933 sec, (presently allocated=3009.91 MB)
unbinding of independent ones took 0.0655441 sec
particles have returned to their original processor (0.22396 sec, presently allocated 3009.91 MB)

number of subhalo candidates that can be done independently=1911.
(Largest size is 18071, finding them took 0.990262 sec)
particles are marked (took 16.7738)
independent subhalos are assembled on individual CPUs for unbinding (0.164171 sec, (presently allocated=3009.91 MB)
unbinding of independent ones took 0.538938 sec
particles have returned to their original processor (0.225541 sec, presently allocated 3009.91 MB)

number of subhalo candidates that can be done independently=118.
(Largest size is 85671, finding them took 0.814737 sec)
particles are marked (took 13.2973)
independent subhalos are assembled on individual CPUs for unbinding (0.160814 sec, (presently allocated=3009.91 MB)
unbinding of independent ones took 2.00249 sec
particles have returned to their original processor (0.229305 sec, presently allocated 3009.91 MB)

number of subhalo candidates that can be done independently=9.
(Largest size is 149009, finding them took 0.592401 sec)
particles are marked (took 13.7014)
independent subhalos are assembled on individual CPUs for unbinding (0.189986 sec, (presently allocated=3009.91 MB)
unbinding of independent ones took 9.99019 sec
particles have returned to their original processor (0.264502 sec, presently allocated 3009.91 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 398560, finding them took 0.520545 sec)
particles are marked (took 9.11706)
independent subhalos are assembled on individual CPUs for unbinding (0.150582 sec, (presently allocated=3009.91 MB)
unbinding of independent ones took 0.120885 sec
particles have returned to their original processor (0.212404 sec, presently allocated 3009.91 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 398560, finding them took 0.466753 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=398560 ... maximum alloacted 3009.98 MB
took 9.57163 sec
collective unbinding of nr=1 (2) of length=4728203 ... maximum alloacted 3009.98 MB
took 92.3698 sec

the collective unbinding of remaining halos took 110.616 sec

found 1811 bound substructures in FoF group of length 4728203
determination of parent subhalo took 0.0412581 sec (presently allocated 3009.98 MB)
determining substructure properties took 104.639 sec (presently allocated 3009.98 MB)

collectively doing halo 5, num=18
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2501.46 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2561.01 MB)
Before=144137
After=165449
NTopleaves= 144768  NTopnodes=165449 (space for 244687)
gravity work-load balance=1.00046   memory-balance=1.00046   SPH work-load balance=0
iter=0 exchange of 0003356208 particles (ret=0)
domain decomposition done. (took 0.92057 sec)
Freed 3.62723 MByte in top-level domain structure
coldomain_Decomposition() took 1.36275 sec  (presently allocated=3007.89 MB)
force_treebuild() took 1.89156 sec (presently allocated=3007.89 MB)
Start find_linkngb (13143 particles on task=0)
find linkngb iteration 1: need to repeat for 0003361541 particles. (took 0.241726 sec)
find linkngb iteration 2: need to repeat for 0003294274 particles. (took 0.161208 sec)
find linkngb iteration 3: need to repeat for 0003157547 particles. (took 0.112128 sec)
find linkngb iteration 4: need to repeat for 0002826432 particles. (took 0.151676 sec)
find linkngb iteration 5: need to repeat for 0002370585 particles. (took 0.111441 sec)
find linkngb iteration 6: need to repeat for 0001725850 particles. (took 0.0957031 sec)
find linkngb iteration 7: need to repeat for 0001089510 particles. (took 0.070435 sec)
find linkngb iteration 8: need to repeat for 0000620527 particles. (took 0.048456 sec)
find linkngb iteration 9: need to repeat for 0000333213 particles. (took 0.0321641 sec)
find linkngb iteration 10: need to repeat for 0000172723 particles. (took 0.021898 sec)
find linkngb iteration 11: need to repeat for 0000087815 particles. (took 0.0158451 sec)
find linkngb iteration 12: need to repeat for 0000019173 particles. (took 0.0118191 sec)
find linkngb iteration 13: need to repeat for 0000000524 particles. (took 0.0072639 sec)
find linkngb iteration 14: need to repeat for 0000000157 particles. (took 0.000608206 sec)
find linkngb iteration 15: need to repeat for 0000000043 particles. (took 0.000397921 sec)
find linkngb iteration 16: need to repeat for 0000000015 particles. (took 0.000346899 sec)
find linkngb iteration 17: need to repeat for 0000000005 particles. (took 0.000353098 sec)
find linkngb iteration 18: need to repeat for 0000000001 particles. (took 0.000339985 sec)
find_linkngb() took 1.08469 sec
Start finding nearest two (13143 particles on task=0)
find_nearesttwo() took 0.230411 sec (presently allocated=3008.89 MB)
parallel sort of densities done. took 0.04548 sec
building distributed linked list. (presently allocated 3008.76 MB)
identification of primary candidates took 88.3903 sec
adding background as candidate took 0.157109 sec
establishing of rank order took 28.7573 sec  (p=3370742, grouplen=3370742) presently allocated 3008.76 MB

total number of subhalo candidates=14582

number of subhalo candidates that can be done independently=13001.
(Largest size is 5772, finding them took 0.00412416 sec)
particles are marked (took 18.4673)
independent subhalos are assembled on individual CPUs for unbinding (0.159609 sec, (presently allocated=3008.76 MB)
unbinding of independent ones took 0.0995331 sec
particles have returned to their original processor (0.219101 sec, presently allocated 3008.76 MB)

number of subhalo candidates that can be done independently=1453.
(Largest size is 22204, finding them took 0.972873 sec)
particles are marked (took 12.0624)
independent subhalos are assembled on individual CPUs for unbinding (0.162727 sec, (presently allocated=3008.76 MB)
unbinding of independent ones took 0.439665 sec
particles have returned to their original processor (0.224997 sec, presently allocated 3008.76 MB)

number of subhalo candidates that can be done independently=116.
(Largest size is 109069, finding them took 1.05956 sec)
particles are marked (took 10.2535)
independent subhalos are assembled on individual CPUs for unbinding (0.181745 sec, (presently allocated=3008.76 MB)
unbinding of independent ones took 3.01078 sec
particles have returned to their original processor (0.259699 sec, presently allocated 3008.76 MB)

number of subhalo candidates that can be done independently=11.
(Largest size is 75151, finding them took 0.506539 sec)
particles are marked (took 10.6926)
independent subhalos are assembled on individual CPUs for unbinding (0.165398 sec, (presently allocated=3008.76 MB)
unbinding of independent ones took 1.77257 sec
particles have returned to their original processor (0.235158 sec, presently allocated 3008.76 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 3370742, finding them took 0.50804 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=3370742 ... maximum alloacted 3008.81 MB
took 58.1625 sec

the collective unbinding of remaining halos took 64.6019 sec

found 1228 bound substructures in FoF group of length 3370742
determination of parent subhalo took 0.036463 sec (presently allocated 3008.81 MB)
determining substructure properties took 71.6592 sec (presently allocated 3008.81 MB)
processing of collective halos took 3424.81 sec
sort of local particles()() took 0.625814 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 699.009 sec

Task 3: testing particles ...
Task 219: testing particles ...
Task 236: testing particles ...
Task 252: testing particles ...
Task 1: testing particles ...
Task 235: testing particles ...
Task 246: testing particles ...
Task 196: testing particles ...
Task 4: testing particles ...
Task 215: testing particles ...
Task 207: testing particles ...
Task 181: testing particles ...
Task 208: testing particles ...
Task 186: testing particles ...
Task 227: testing particles ...
Task 242: testing particles ...
Task 162: testing particles ...
Task 153: testing particles ...
Task 253: testing particles ...
Task 237: testing particles ...
Task 216: testing particles ...
Task 197: testing particles ...
Task 231: testing particles ...
Task 220: testing particles ...
Task 251: testing particles ...
Task 124: testing particles ...
Task 144: testing particles ...
Task 222: testing particles ...
Task 247: testing particles ...
Task 117: testing particles ...
Task 165: testing particles ...
Task 147: testing particles ...
Task 183: testing particles ...
Task 248: testing particles ...
Task 206: testing particles ...
Task 243: testing particles ...
Task 177: testing particles ...
Task 195: testing particles ...
Task 145: testing particles ...
Task 178: testing particles ...
Task 171: testing particles ...
Task 192: testing particles ...
Task 110: testing particles ...
Task 121: testing particles ...
Task 188: testing particles ...
Task 200: testing particles ...
Task 168: testing particles ...
Task 230: testing particles ...
Task 191: testing particles ...
Task 136: testing particles ...
Task 201: testing particles ...
Task 64: testing particles ...
Task 210: testing particles ...
Task 158: testing particles ...
Task 169: testing particles ...
Task 250: testing particles ...
Task 185: testing particles ...
Task 128: testing particles ...
Task 232: testing particles ...
Task 238: testing particles ...
Task 141: testing particles ...
Task 204: testing particles ...
Task 137: testing particles ...
Task 130: testing particles ...
Task 184: testing particles ...
Task 214: testing particles ...
Task 2: testing particles ...
Task 224: testing particles ...
Task 182: testing particles ...
Task 113: testing particles ...
Task 106: testing particles ...
Task 102: testing particles ...
Task 134: testing particles ...
Task 140: testing particles ...
Task 157: testing particles ...
Task 94: testing particles ...
Task 89: testing particles ...
Task 131: testing particles ...
Task 81: testing particles ...
Task 74: testing particles ...
Task 221: testing particles ...
Task 97: testing particles ...
Task 229: testing particles ...
Task 255: testing particles ...
Task 105: testing particles ...
Task 120: testing particles ...
Task 211: testing particles ...
Task 239: testing particles ...
Task 155: testing particles ...
Task 225: testing particles ...
Task 116: testing particles ...
Task 241: testing particles ...
Task 156: testing particles ...
Task 223: testing particles ...
Task 167: testing particles ...
Task 161: testing particles ...
Task 150: testing particles ...
Task 101: testing particles ...
Task 179: testing particles ...
Task 99: testing particles ...
unsorting of local particles()() took 0.573272 sec
Task 0: testing particles ...
Task 212: testing particles ...
Task 114: testing particles ...
Task 146: testing particles ...
Task 173: testing particles ...
Task 133: testing particles ...
Task 149: testing particles ...
Task 199: testing particles ...
Task 193: testing particles ...
Task 172: testing particles ...
Task 152: testing particles ...
Task 72: testing particles ...
Task 142: testing particles ...
Task 226: testing particles ...
Task 85: testing particles ...
Task 123: testing particles ...
Task 163: testing particles ...
Task 71: testing particles ...
Task 82: testing particles ...
Task 198: testing particles ...
Task 209: testing particles ...
Task 126: testing particles ...
Task 127: testing particles ...
Task 203: testing particles ...
Task 75: testing particles ...
Task 245: testing particles ...
Task 76: testing particles ...
Task 194: testing particles ...
Task 213: testing particles ...
Task 190: testing particles ...
Task 143: testing particles ...
Task 254: testing particles ...
Task 154: testing particles ...
Task 174: testing particles ...
Task 187: testing particles ...
Task 180: testing particles ...
Task 60: testing particles ...
Task 217: testing particles ...
Task 244: testing particles ...
Task 202: testing particles ...
Task 92: testing particles ...
Task 73: testing particles ...
Task 115: testing particles ...
Task 112: testing particles ...
Task 80: testing particles ...
Task 111: testing particles ...
Task 68: testing particles ...
Task 48: testing particles ...
Task 166: testing particles ...
Task 132: testing particles ...
Task 91: testing particles ...
Task 160: testing particles ...
Task 122: testing particles ...
Task 70: testing particles ...
Task 125: testing particles ...
Task 234: testing particles ...
Task 205: testing particles ...
Task 88: testing particles ...
Task 240: testing particles ...
Task 107: testing particles ...
Task 249: testing particles ...
Task 218: testing particles ...
Task 233: testing particles ...
Task 228: testing particles ...
Task 87: testing particles ...
Task 176: testing particles ...
Task 189: testing particles ...
Task 119: testing particles ...
Task 164: testing particles ...
Task 170: testing particles ...
Task 108: testing particles ...
Task 104: testing particles ...
Task 93: testing particles ...
Task 83: testing particles ...
Task 90: testing particles ...
Task 59: testing particles ...
Task 84: testing particles ...
Task 118: testing particles ...
Task 62: testing particles ...
Task 54: testing particles ...
Task 135: testing particles ...
Task 103: testing particles ...
Task 139: testing particles ...
Task 175: testing particles ...
Task 159: testing particles ...
Task 100: testing particles ...
Task 77: testing particles ...
Task 69: testing particles ...
Task 96: testing particles ...
Task 57: testing particles ...
Task 148: testing particles ...
Task 67: testing particles ...
Task 151: testing particles ...
Task 45: testing particles ...
Task 65: testing particles ...
Task 129: testing particles ...
Task 55: testing particles ...
Task 61: testing particles ...
Task 78: testing particles ...
Task 58: testing particles ...
Task 86: testing particles ...
Task 109: testing particles ...
Task 52: testing particles ...
Task 39: testing particles ...
Task 138: testing particles ...
Task 51: testing particles ...
Task 95: testing particles ...
Task 98: testing particles ...
Task 53: testing particles ...
Task 50: testing particles ...
Task 49: testing particles ...
Task 38: testing particles ...
Task 66: testing particles ...
Task 47: testing particles ...
Task 79: testing particles ...
Task 56: testing particles ...
Task 42: testing particles ...
Task 40: testing particles ...
Task 63: testing particles ...
Task 41: testing particles ...
Task 33: testing particles ...
Task 46: testing particles ...
Task 24: testing particles ...
Task 27: testing particles ...
Task 34: testing particles ...
Task 37: testing particles ...
Task 25: testing particles ...
Task 26: testing particles ...
Task 30: testing particles ...
Task 44: testing particles ...
Task 35: testing particles ...
Task 23: testing particles ...
Task 20: testing particles ...
Task 22: testing particles ...
Task 43: testing particles ...
Task 28: testing particles ...
Task 36: testing particles ...
Task 31: testing particles ...
Task 32: testing particles ...
Task 21: testing particles ...
Task 29: testing particles ...
Task 15: testing particles ...
Task 18: testing particles ...
Task 17: testing particles ...
Task 14: testing particles ...
Task 13: testing particles ...
Task 19: testing particles ...
Task 16: testing particles ...
Task 12: testing particles ...
Task 11: testing particles ...
Task 10: testing particles ...
Task 7: testing particles ...
Task 9: testing particles ...
Task 8: testing particles ...
Task 6: testing particles ...
Task 5: testing particles ...
subfind_exchange() (for return to original CPU)  took 3.45928 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2501.46 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2561.01 MB)
Before=186945
After=205225
NTopleaves= 179572  NTopnodes=205225 (space for 244687)
gravity work-load balance=1.00037   memory-balance=1.00037   SPH work-load balance=0
iter=0 exchange of 0273009357 particles (ret=0)
domain decomposition done. (took 4.05519 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.80643 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000166965 particles. (took 0.0313821 sec)
SO iteration 2: need to repeat for 0000166965 particles. (took 0.02337 sec)
SO iteration 3: need to repeat for 0000166965 particles. (took 0.0242739 sec)
SO iteration 4: need to repeat for 0000166965 particles. (took 0.0238869 sec)
SO iteration 5: need to repeat for 0000166965 particles. (took 0.0239871 sec)
SO iteration 6: need to repeat for 0000166965 particles. (took 0.0240128 sec)
SO iteration 7: need to repeat for 0000166965 particles. (took 0.024173 sec)
SO iteration 8: need to repeat for 0000166965 particles. (took 0.0247581 sec)
SO iteration 9: need to repeat for 0000166965 particles. (took 0.0246129 sec)
SO iteration 10: need to repeat for 0000166965 particles. (took 0.0239131 sec)
SO iteration 11: need to repeat for 0000166965 particles. (took 0.0237582 sec)
SO iteration 12: need to repeat for 0000166965 particles. (took 0.023658 sec)
SO iteration 13: need to repeat for 0000166965 particles. (took 0.0235291 sec)
SO iteration 14: need to repeat for 0000166965 particles. (took 0.0236368 sec)
SO iteration 15: need to repeat for 0000166457 particles. (took 0.023736 sec)
SO iteration 16: need to repeat for 0000000613 particles. (took 0.023438 sec)
SO iteration 17: need to repeat for 0000000062 particles. (took 0.00139308 sec)
SO iteration 1: need to repeat for 0000166965 particles. (took 0.0237889 sec)
SO iteration 2: need to repeat for 0000166965 particles. (took 0.0214031 sec)
SO iteration 3: need to repeat for 0000166965 particles. (took 0.0225689 sec)
SO iteration 4: need to repeat for 0000166965 particles. (took 0.022609 sec)
SO iteration 5: need to repeat for 0000166965 particles. (took 0.022826 sec)
SO iteration 6: need to repeat for 0000166965 particles. (took 0.022155 sec)
SO iteration 7: need to repeat for 0000166965 particles. (took 0.0223842 sec)
SO iteration 8: need to repeat for 0000166965 particles. (took 0.021966 sec)
SO iteration 9: need to repeat for 0000166965 particles. (took 0.02212 sec)
SO iteration 10: need to repeat for 0000166965 particles. (took 0.0220048 sec)
SO iteration 11: need to repeat for 0000166965 particles. (took 0.0218251 sec)
SO iteration 12: need to repeat for 0000166965 particles. (took 0.0217569 sec)
SO iteration 13: need to repeat for 0000166965 particles. (took 0.0221832 sec)
SO iteration 14: need to repeat for 0000166965 particles. (took 0.0217991 sec)
SO iteration 15: need to repeat for 0000166847 particles. (took 0.021662 sec)
SO iteration 16: need to repeat for 0000025779 particles. (took 0.0216091 sec)
SO iteration 17: need to repeat for 0000000389 particles. (took 0.00812292 sec)
SO iteration 18: need to repeat for 0000000048 particles. (took 0.00111914 sec)
SO iteration 1: need to repeat for 0000166965 particles. (took 0.0236449 sec)
SO iteration 2: need to repeat for 0000166965 particles. (took 0.0211341 sec)
SO iteration 3: need to repeat for 0000166965 particles. (took 0.0192561 sec)
SO iteration 4: need to repeat for 0000166965 particles. (took 0.020035 sec)
SO iteration 5: need to repeat for 0000166965 particles. (took 0.0198901 sec)
SO iteration 6: need to repeat for 0000166965 particles. (took 0.0200031 sec)
SO iteration 7: need to repeat for 0000166965 particles. (took 0.021755 sec)
SO iteration 8: need to repeat for 0000166965 particles. (took 0.0199761 sec)
SO iteration 9: need to repeat for 0000166965 particles. (took 0.0200279 sec)
SO iteration 10: need to repeat for 0000166965 particles. (took 0.020396 sec)
SO iteration 11: need to repeat for 0000166965 particles. (took 0.0205729 sec)
SO iteration 12: need to repeat for 0000166965 particles. (took 0.0205579 sec)
SO iteration 13: need to repeat for 0000166965 particles. (took 0.0201359 sec)
SO iteration 14: need to repeat for 0000166965 particles. (took 0.0203471 sec)
SO iteration 15: need to repeat for 0000166957 particles. (took 0.020231 sec)
SO iteration 16: need to repeat for 0000166931 particles. (took 0.0201399 sec)
SO iteration 17: need to repeat for 0000044243 particles. (took 0.0202379 sec)
SO iteration 18: need to repeat for 0000000834 particles. (took 0.00998497 sec)
SO iteration 19: need to repeat for 0000000077 particles. (took 0.00125813 sec)
SO iteration 20: need to repeat for 0000000002 particles. (took 0.000900984 sec)
SO iteration 1: need to repeat for 0000166965 particles. (took 0.0235851 sec)
SO iteration 2: need to repeat for 0000166965 particles. (took 0.0216391 sec)
SO iteration 3: need to repeat for 0000166965 particles. (took 0.022687 sec)
SO iteration 4: need to repeat for 0000166965 particles. (took 0.0229659 sec)
SO iteration 5: need to repeat for 0000166965 particles. (took 0.0232899 sec)
SO iteration 6: need to repeat for 0000166965 particles. (took 0.023484 sec)
SO iteration 7: need to repeat for 0000166965 particles. (took 0.0238061 sec)
SO iteration 8: need to repeat for 0000166965 particles. (took 0.0230141 sec)
SO iteration 9: need to repeat for 0000166965 particles. (took 0.0230942 sec)
SO iteration 10: need to repeat for 0000166965 particles. (took 0.023078 sec)
SO iteration 11: need to repeat for 0000166965 particles. (took 0.023134 sec)
SO iteration 12: need to repeat for 0000166965 particles. (took 0.023828 sec)
SO iteration 13: need to repeat for 0000166965 particles. (took 0.022995 sec)
SO iteration 14: need to repeat for 0000166965 particles. (took 0.0347641 sec)
SO iteration 15: need to repeat for 0000166598 particles. (took 0.0266631 sec)
SO iteration 16: need to repeat for 0000001299 particles. (took 0.0366659 sec)
SO iteration 17: need to repeat for 0000000086 particles. (took 0.00287199 sec)
SO iteration 18: need to repeat for 0000000002 particles. (took 0.00170302 sec)
SO iteration 1: need to repeat for 0000166965 particles. (took 0.036943 sec)
SO iteration 2: need to repeat for 0000166965 particles. (took 0.0267389 sec)
SO iteration 3: need to repeat for 0000166965 particles. (took 0.0224302 sec)
SO iteration 4: need to repeat for 0000166965 particles. (took 0.023381 sec)
SO iteration 5: need to repeat for 0000166965 particles. (took 0.0231209 sec)
SO iteration 6: need to repeat for 0000166965 particles. (took 0.0236108 sec)
SO iteration 7: need to repeat for 0000166965 particles. (took 0.023567 sec)
SO iteration 8: need to repeat for 0000166965 particles. (took 0.0225999 sec)
SO iteration 9: need to repeat for 0000166965 particles. (took 0.0224831 sec)
SO iteration 10: need to repeat for 0000166965 particles. (took 0.0229969 sec)
SO iteration 11: need to repeat for 0000166965 particles. (took 0.023037 sec)
SO iteration 12: need to repeat for 0000166965 particles. (took 0.022367 sec)
SO iteration 13: need to repeat for 0000166965 particles. (took 0.022568 sec)
SO iteration 14: need to repeat for 0000166965 particles. (took 0.022578 sec)
SO iteration 15: need to repeat for 0000166766 particles. (took 0.0239351 sec)
SO iteration 16: need to repeat for 0000006964 particles. (took 0.022584 sec)
SO iteration 17: need to repeat for 0000000197 particles. (took 0.00406814 sec)
SO iteration 18: need to repeat for 0000000018 particles. (took 0.000945091 sec)
SO iteration 1: need to repeat for 0000166965 particles. (took 0.02512 sec)
SO iteration 2: need to repeat for 0000166965 particles. (took 0.0219889 sec)
SO iteration 3: need to repeat for 0000166965 particles. (took 0.0223489 sec)
SO iteration 4: need to repeat for 0000166965 particles. (took 0.021944 sec)
SO iteration 5: need to repeat for 0000166965 particles. (took 0.0216918 sec)
SO iteration 6: need to repeat for 0000166965 particles. (took 0.0216551 sec)
SO iteration 7: need to repeat for 0000166965 particles. (took 0.022136 sec)
SO iteration 8: need to repeat for 0000166965 particles. (took 0.0208418 sec)
SO iteration 9: need to repeat for 0000166965 particles. (took 0.0208411 sec)
SO iteration 10: need to repeat for 0000166965 particles. (took 0.02092 sec)
SO iteration 11: need to repeat for 0000166965 particles. (took 0.0208139 sec)
SO iteration 12: need to repeat for 0000166965 particles. (took 0.0215259 sec)
SO iteration 13: need to repeat for 0000166965 particles. (took 0.0208979 sec)
SO iteration 14: need to repeat for 0000166965 particles. (took 0.0209601 sec)
SO iteration 15: need to repeat for 0000166918 particles. (took 0.0207679 sec)
SO iteration 16: need to repeat for 0000166740 particles. (took 0.020817 sec)
SO iteration 17: need to repeat for 0000001831 particles. (took 0.0212278 sec)
SO iteration 18: need to repeat for 0000000136 particles. (took 0.00147796 sec)
SO iteration 19: need to repeat for 0000000002 particles. (took 0.000669956 sec)
SO iteration 1: need to repeat for 0000166965 particles. (took 0.0235898 sec)
SO iteration 2: need to repeat for 0000166965 particles. (took 0.0210071 sec)
SO iteration 3: need to repeat for 0000166965 particles. (took 0.019165 sec)
SO iteration 4: need to repeat for 0000166965 particles. (took 0.0186028 sec)
SO iteration 5: need to repeat for 0000166965 particles. (took 0.01895 sec)
SO iteration 6: need to repeat for 0000166965 particles. (took 0.0192101 sec)
SO iteration 7: need to repeat for 0000166965 particles. (took 0.0189419 sec)
SO iteration 8: need to repeat for 0000166965 particles. (took 0.0190089 sec)
SO iteration 9: need to repeat for 0000166965 particles. (took 0.0189121 sec)
SO iteration 10: need to repeat for 0000166965 particles. (took 0.0189011 sec)
SO iteration 11: need to repeat for 0000166965 particles. (took 0.0189888 sec)
SO iteration 12: need to repeat for 0000166965 particles. (took 0.0188429 sec)
SO iteration 13: need to repeat for 0000166965 particles. (took 0.0188918 sec)
SO iteration 14: need to repeat for 0000166965 particles. (took 0.018904 sec)
SO iteration 15: need to repeat for 0000166963 particles. (took 0.0190091 sec)
SO iteration 16: need to repeat for 0000166949 particles. (took 0.0189061 sec)
SO iteration 17: need to repeat for 0000160673 particles. (took 0.0206091 sec)
SO iteration 18: need to repeat for 0000006193 particles. (took 0.019551 sec)
SO iteration 19: need to repeat for 0000000214 particles. (took 0.00263786 sec)
SO iteration 20: need to repeat for 0000000007 particles. (took 0.000591993 sec)
determining spherical overdensity masses took 2.64187 sec
finding spherical overdensity particles took 0.56672 sec
determining contamination of halos took 0.265817 sec
Global sort of Groups took 0.173801 sec
Global sort of SubGroups took 0.679327 sec
Global sort of IDs took 0.561568 sec
Writing block 0 (GLEN), n=795, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3180d
Writing block 1 (GOFF), n=795, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3180d
Writing block 2 (MTOT), n=795, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3180d
Writing block 3 (GPOS), n=795, ptype=0, dtype=1, ndim=3, bpb=4 bytes=9540d
Writing block 4 (MMEA), n=795, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3180d
Writing block 5 (RMEA), n=795, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3180d
Writing block 6 (MCRI), n=795, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3180d
Writing block 7 (RCRI), n=795, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3180d
Writing block 8 (MTOP), n=795, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3180d
Writing block 9 (RTOP), n=795, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3180d
Writing block 17 (NCON), n=795, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3180d
Writing block 18 (MCON), n=795, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3180d
Writing block 22 (NSUB), n=795, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3180d
Writing block 23 (FSUB), n=795, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3180d
Writing block 24 (SLEN), n=4327, ptype=1, dtype=0, ndim=1, bpb=4 bytes=17308d
Writing block 25 (SOFF), n=4327, ptype=1, dtype=0, ndim=1, bpb=4 bytes=17308d
Writing block 27 (MSUB), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 28 (SPOS), n=4327, ptype=1, dtype=1, ndim=3, bpb=4 bytes=51924d
Writing block 29 (SVEL), n=4327, ptype=1, dtype=1, ndim=3, bpb=4 bytes=51924d
Writing block 30 (SCM ), n=4327, ptype=1, dtype=1, ndim=3, bpb=4 bytes=51924d
Writing block 33 (VMAX), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 34 (RMAX), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 35 (RHMS), n=4327, ptype=1, dtype=1, ndim=6, bpb=4 bytes=103848d
Writing block 36 (MTRH), n=4327, ptype=1, dtype=1, ndim=6, bpb=4 bytes=103848d
Writing block 37 (MBID), n=4327, ptype=1, dtype=2, ndim=1, bpb=8 bytes=34616d
Writing block 38 (GRNR), n=4327, ptype=1, dtype=0, ndim=1, bpb=4 bytes=17308d
Writing block 39 (SUBN), n=4327, ptype=1, dtype=0, ndim=1, bpb=4 bytes=17308d
Writing block 40 (SMST), n=4327, ptype=1, dtype=1, ndim=6, bpb=4 bytes=103848d
Writing block 53 (PID ), n=514012, ptype=2, dtype=2, ndim=1, bpb=8 bytes=4112096d
Writing block 54 (SLEN), n=4327, ptype=1, dtype=0, ndim=6, bpb=4 bytes=103848d
Writing block 55 (STEN), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 56 (SKEN), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 57 (SUEN), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 58 (SUIT), n=4327, ptype=1, dtype=1, ndim=9, bpb=4 bytes=155772d
Writing block 59 (BHMA), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 60 (BHMD), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 61 (SVD ), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 62 (SVDH), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 63 (HMPR), n=4327, ptype=1, dtype=1, ndim=6, bpb=4 bytes=103848d
Writing block 64 (SSFR), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 65 (SSA ), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 66 (SSBZ), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 67 (SSIM), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 68 (SSPI), n=4327, ptype=4, dtype=1, ndim=3, bpb=4 bytes=51924d
Writing block 69 (GSPI), n=4327, ptype=1, dtype=1, ndim=3, bpb=4 bytes=51924d
Writing block 70 (FSPI), n=4327, ptype=5, dtype=1, ndim=3, bpb=4 bytes=51924d
Writing block 71 (SFM ), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 72 (SFMT), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 73 (SFME), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 74 (SFAE), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 75 (SFKE), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 76 (SFTE), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 77 (SMWP), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 78 (SMM ), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 79 (SMMS), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 80 (SFZ ), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 81 (SFZS), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 82 (SSIA), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 83 (SIAS), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 84 (SMET), n=4327, ptype=5, dtype=1, ndim=9, bpb=4 bytes=155772d
Writing block 85 (SMTS), n=4327, ptype=5, dtype=1, ndim=9, bpb=4 bytes=155772d
Writing block 86 (MF1 ), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 87 (MeF1), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 88 (MF  ), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 89 (MeF2), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 90 (MFA ), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 91 (MeFA), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 92 (NSPI), n=4327, ptype=6, dtype=1, ndim=3, bpb=4 bytes=51924d
Writing block 93 (NFM ), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 94 (NFMT), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 95 (NFME), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 96 (NFAE), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 97 (NFKE), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 98 (NFTE), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 99 (SMWP), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 100 (SMM ), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 101 (SMMS), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 102 (SSIA), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 103 (SIAS), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 104 (SMET), n=4327, ptype=6, dtype=1, ndim=9, bpb=4 bytes=155772d
Writing block 105 (SMTS), n=4327, ptype=6, dtype=1, ndim=9, bpb=4 bytes=155772d
Writing block 106 (MF1 ), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 107 (MeF1), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 108 (MF2 ), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 109 (MeF2), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 110 (MFA ), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 111 (MeFA), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 112 (SM  ), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 113 (SFKE), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 114 (SFAE), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 115 (SMWP), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 116 (SMM ), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 117 (SMMS), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 118 (SSIA), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 119 (SIAS), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 120 (SMET), n=4327, ptype=4, dtype=1, ndim=9, bpb=4 bytes=155772d
Writing block 121 (SMTS), n=4327, ptype=4, dtype=1, ndim=9, bpb=4 bytes=155772d
Writing block 122 (MF1 ), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 123 (MeF1), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 124 (MF2 ), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 125 (MeF2), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 126 (MFA ), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 127 (MeFA), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 128 (MMe5), n=795, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3180d
Writing block 129 (RMe5), n=795, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3180d
Writing block 130 (MCr5), n=795, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3180d
Writing block 131 (RCr5), n=795, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3180d
Writing block 132 (MMe2), n=795, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3180d
Writing block 133 (RMe2), n=795, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3180d
Writing block 134 (MCr2), n=795, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3180d
Writing block 135 (RCr2), n=795, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3180d
Writing block 136 (MAPT), n=4327, ptype=7, dtype=1, ndim=60, bpb=4 bytes=1038480d
Writing block 137 (SAPT), n=4327, ptype=8, dtype=1, ndim=10, bpb=4 bytes=173080d
Writing block 138 (VAPT), n=4327, ptype=9, dtype=1, ndim=10, bpb=4 bytes=173080d
Writing block 139 (BEGY), n=514012, ptype=2, dtype=1, ndim=1, bpb=4 bytes=2056048d
Subgroup catalogues saved. took = 7.0578 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 6.714039e-01
 eagle_ph_key_ort: type= 2 timed by volker 6.156802e-02
 eagle_ph_key_ort: type= 3 timed by volker 5.230403e-02
 eagle_ph_key_ort: type= 4 timed by volker 5.230403e-02
 eagle_ph_key_ort: type= 5 timed by volker 5.230403e-02
 eagle_ph_key_ort: timing parallel sort = 7.917080e-01
 eagle_fetch_elements: we are using 1194564832 bytes of memory, FreeBytes= 1493206040

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 2525.97 Mbyte (on task=0), Smallest = 1318.62 Mbyte, Average = 1351.99 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9802    1202.9942  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.4085    1227.4026  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.6808    1268.0834  fof_fof()/fof.c/337
   0 2975 0             Group      1.2711    1269.3544  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1232.1066    2501.4611  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5067    2525.9678  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1306173 number of bytes = 417975360

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3664.9 Mbyte (on task=0), Smallest = 2457.7 Mbyte, Average = 2491.1 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9802    1202.9942  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.4085    1227.4026  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.6808    1268.0834  fof_fof()/fof.c/337
   0 2975 0             Group      1.2711    1269.3544  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1232.1066    2501.4611  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5067    2525.9678  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      4.9827    2530.9504  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      4.9827    2535.9331  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      4.9827    2540.9157  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    398.6124    2939.5281  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    398.6124    3338.1405  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    326.7557    3664.8961  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.432663e+00
 eagle_fetch_elements: we are using 1194564832 bytes of memory, FreeBytes= 1493206040
 eagle_fetch_elements: max_bytes= 504, max_elements= 1171141 number of bytes = 590255064
 eagle_ph_key_ort: timing parallel SphP exchange = 1.339912e-03
 eagle_fetch_elements: we are using 1194564832 bytes of memory, FreeBytes= 1493206040
 eagle_fetch_elements: max_bytes= 384, max_elements= 1531493 number of bytes = 588093312
 eagle_ph_key_ort: timing parallel MetP exchange = 4.689693e-04
 eagle_fetch_elements: we are using 1194564832 bytes of memory, FreeBytes= 1493206040
 eagle_fetch_elements: max_bytes= 256, max_elements= 2279703 number of bytes = 583603968
 eagle_ph_key_ort: timing parallel BHP exchange = 4.730225e-04
Sorting particle-data by peano-hilbert key took = 3.60709 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1194564832 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1306173 number of bytes= 417975360
 eagle_ph_restore: timing parallel P exchange = 2.534516e+00
 eagle_send_elements: we are using 1194564832 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1171141 number of bytes= 590255064
 eagle_ph_restore: timing parallel SphP exchange = 1.655817e-03
 eagle_send_elements: we are using 1194564832 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1531493 number of bytes= 588093312
 eagle_ph_restore: timing parallel MetP exchange = 7.219315e-04
 eagle_send_elements: we are using 1194564832 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 2279703 number of bytes= 583603968
 eagle_ph_restore: timing parallel BHP exchange = 7.021427e-04
Restoring original order after ph key sorting took = 2.55401 sec

finished writing particle file...

Finished with SUBFIND.  (total time=4281.19 sec)

Finished computing FoF groups.  (presently allocated=1202.99 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=180793
After=201049
NTopleaves= 175918  NTopnodes=201049 (space for 244687)
gravity work-load balance=1.00056   memory-balance=1.00056   SPH work-load balance=0
iter=0 exchange of 0273496812 particles (ret=0)
domain decomposition done. (took 3.8831 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.99759 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
task 16: endrun called with an error level of 124


task 16: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
task 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
task 128: endrun called with an error level of 124


task 128: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 160: endrun called with an error level of 124


task 160: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 176: endrun called with an error level of 124


task 176: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 192: endrun called with an error level of 124


task 192: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
Finished FOF, total time doing fof/subfind = 4335.57 s
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.93 Mb (on task=112), Smallest =   62647.04 Mb (on task=0), Average =   62686.77 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1885.02 Mb (on task=0), Smallest =    1798.13 Mb (on task=112), Average =    1845.30 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16342.36 Mb (on task=0), Average =   16352.20 Mb
AllocMem:	 Largest =    1885.02 Mb (on task=0), Smallest =    1798.13 Mb (on task=112), Average =    1845.30 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_019_z000p366/snap_019_z000p366.0.hdf5' on task=0 (contains 17530030 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  17167998  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     12670  (tot=     0000303834) masstab=0
Type 3 (bulge):   349362  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.737686

Setting next time for line of sight file to Time_next= 0.734602

Setting next time for snipshot file to Time_next= 0.747438

Setting next time for fof output to Time_next= 0.747438
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.13893 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=194617
After=198953
NTopleaves= 174084  NTopnodes=198953 (space for 244687)
gravity work-load balance=1.00041   memory-balance=1.00041   SPH work-load balance=0
iter=0 exchange of 0273014012 particles (ret=0)
domain decomposition done. (took 10.3521 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.09354 MByte in top-level domain structure

Allocated 503.298 MByte for BH-tree, and 0.664078 Mbyte for top-leaves.  (presently allocted 1706.84 MB)

Begin Ngb-tree construction.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1753.02 Mbyte (on task=138), Smallest = 1752.97 Mbyte, Average = 1753.01 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 138 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
 138 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
 138 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
 138 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
 138 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
 138 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
 138 2972 0          TopNodes      9.8663    1202.8813  domain_allocate()/domain.c/570
 138 2973 0   DomainNodeIndex      0.6641    1203.5454  force_treeallocate()/forcetree.c/4800
 138 2974 0        Nodes_base    258.5087    1462.0541  force_treeallocate()/forcetree.c/4803
 138 2975 0     Extnodes_base    215.4239    1677.4780  force_treeallocate()/forcetree.c/4811
 138 2976 0          Nextnode     15.0622    1692.5401  force_treeallocate()/forcetree.c/4820
 138 2977 0            Father     14.3032    1706.8433  force_treeallocate()/forcetree.c/4827
 138 2978 0           Ngblist      4.0883    1710.9316  density()/density.c/690
 138 2979 0              Left      8.1766    1719.1082  density()/density.c/692
 138 2980 0             Right      8.1766    1727.2848  density()/density.c/693
 138 2981 0    DataIndexTable      7.0175    1734.3024  density()/density.c/738
 138 2982 0      DataNodeList     18.7134    1753.0158  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.333.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.399.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.84 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=181761
After=201065
NTopleaves= 175932  NTopnodes=201065 (space for 244687)
gravity work-load balance=1.00055   memory-balance=1.00055   SPH work-load balance=0
iter=0 exchange of 0273144690 particles (ret=0)
domain decomposition done. (took 3.86135 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.99686 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1202.99 MB)
Tree construction.

Start linking particles (presently allocated=1756.38 MB)
links on local processor done (took 7.61522 sec).
Marked=0060134918 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1857.99 MB) 
have done 0000999012 cross links (processed 0060134918, took 5.05662 sec)
have done 0000435252 cross links (processed 0046720416, took 4.44462 sec)
have done 0000307341 cross links (processed 0038410232, took 4.21627 sec)
have done 0000210443 cross links (processed 0028712991, took 3.08788 sec)
have done 0000142534 cross links (processed 0020980047, took 2.90048 sec)
have done 0000101438 cross links (processed 0015576601, took 3.57373 sec)
have done 0000072301 cross links (processed 0011337498, took 2.76702 sec)
have done 0000051201 cross links (processed 0007778774, took 2.6138 sec)
have done 0000035913 cross links (processed 0003343309, took 0.98859 sec)
have done 0000025623 cross links (processed 0002522547, took 0.812032 sec)
have done 0000020770 cross links (processed 0003275753, took 0.670904 sec)
have done 0000018190 cross links (processed 0003867655, took 2.60172 sec)
have done 0000016116 cross links (processed 0002876933, took 2.46395 sec)
have done 0000012112 cross links (processed 0001199797, took 0.780324 sec)
have done 0000007175 cross links (processed 0000611623, took 0.247636 sec)
have done 0000003611 cross links (processed 0000412910, took 0.68997 sec)
have done 0000001471 cross links (processed 0000041884, took 0.0786722 sec)
have done 0000000683 cross links (processed 0000027363, took 0.0758948 sec)
have done 0000000333 cross links (processed 0000014972, took 0.0570161 sec)
have done 0000000140 cross links (processed 0000004692, took 0.0545528 sec)
have done 0000000109 cross links (processed 0000010001, took 0.0564411 sec)
have done 0000000040 cross links (processed 0000001479, took 0.0470421 sec)
have done 0000000019 cross links (processed 0000000225, took 0.0446198 sec)
have done 0000000007 cross links (processed 0000000063, took 0.0445211 sec)
have done 0000000005 cross links (processed 0000000043, took 0.04195 sec)
have done 0000000003 cross links (processed 0000000031, took 0.0446181 sec)
have done 0000000000 cross links (processed 0000000012, took 0.0446239 sec)
Local groups found.

group finding took = 46.2561 sec
Start finding nearest dm-particle (presently allocated=1756.38 MB)
still finding nearest... (presently allocated=1845.84 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.110327 sec
compiling local group data and catalogue took = 0.634775 sec

Total number of groups with at least 32 particles: 200562
Largest group has 11237362 particles.
Total number of particles in groups: 0138461406

group properties are now allocated.. (presently allocated=1269.51 MB)
computation of group properties took = 0.07412 sec
start global sorting of group catalogues number 19
LargestGroup = 8845.705333; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.051774 sec
Group catalogues globally sorted. took = 0.769024 sec
starting saving of group catalogue number 19
data//groups_019_z000p366
Group catalogues number 19 saved. took = 2.27398 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.71456 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.271094 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.709567 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0190959501 particles. (took 20.218 sec)
ngb iteration 2: need to repeat for 0148401999 particles. (took 9.71027 sec)
ngb iteration 3: need to repeat for 0129460402 particles. (took 7.06856 sec)
ngb iteration 4: need to repeat for 0117477127 particles. (took 5.78816 sec)
ngb iteration 5: need to repeat for 0104929334 particles. (took 5.04026 sec)
ngb iteration 6: need to repeat for 0087633902 particles. (took 4.45808 sec)
ngb iteration 7: need to repeat for 0066366428 particles. (took 3.8387 sec)
ngb iteration 8: need to repeat for 0045671762 particles. (took 3.09057 sec)
ngb iteration 9: need to repeat for 0029155428 particles. (took 2.28983 sec)
ngb iteration 10: need to repeat for 0017672556 particles. (took 1.58113 sec)
ngb iteration 11: need to repeat for 0010374034 particles. (took 1.01445 sec)
ngb iteration 12: need to repeat for 0005988425 particles. (took 0.61744 sec)
ngb iteration 13: need to repeat for 0003431654 particles. (took 0.382647 sec)
ngb iteration 14: need to repeat for 0001870545 particles. (took 0.250825 sec)
ngb iteration 15: need to repeat for 0000887453 particles. (took 0.168145 sec)
ngb iteration 16: need to repeat for 0000450152 particles. (took 0.107096 sec)
ngb iteration 17: need to repeat for 0000238731 particles. (took 0.0766768 sec)
ngb iteration 18: need to repeat for 0000128792 particles. (took 0.0618482 sec)
ngb iteration 19: need to repeat for 0000069310 particles. (took 0.0534859 sec)
ngb iteration 20: need to repeat for 0000036529 particles. (took 0.048471 sec)
ngb iteration 21: need to repeat for 0000018603 particles. (took 0.0529799 sec)
ngb iteration 22: need to repeat for 0000009155 particles. (took 0.05478 sec)
ngb iteration 23: need to repeat for 0000004404 particles. (took 0.0476489 sec)
ngb iteration 24: need to repeat for 0000002024 particles. (took 0.0410659 sec)
ngb iteration 25: need to repeat for 0000000848 particles. (took 0.040621 sec)
ngb iteration 26: need to repeat for 0000000321 particles. (took 0.040272 sec)
ngb iteration 27: need to repeat for 0000000116 particles. (took 0.0400579 sec)
ngb iteration 28: need to repeat for 0000000038 particles. (took 0.040422 sec)
ngb iteration 29: need to repeat for 0000000018 particles. (took 0.0402222 sec)
ngb iteration 30: need to repeat for 0000000009 particles. (took 0.0400839 sec)
ngb iteration 31: need to repeat for 0000000004 particles. (took 0.0400131 sec)
ngb iteration 32: need to repeat for 0000000002 particles. (took 0.040046 sec)
final operations ... 
density and smoothing length for species 1 took 66.7459 sec
Tree construction.
tree build took 0.726344 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.270354 sec
Tree construction.
tree build took 0.711441 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.269898 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.170041 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 2.01299 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.711578 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.169316 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 2.02238 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.171945 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 2.03468 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.972829 sec
saving densities took 1.73244 sec

Number of FOF halos treated with collective SubFind code = 5
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 200557 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 21376 - 62796313 

subfind_exchange()() took 1.79739 sec

collectively doing halo 1, num=19
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2515.72 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2575.27 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 2575.27 Mbyte (on task=0), Smallest = 1353.36 Mbyte, Average = 1387.77 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9710    1202.9850  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5312    1227.5162  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8853    1268.4015  fof_fof()/fof.c/337
   0 2975 0             Group      1.1050    1269.5066  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1246.2096    2515.7162  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    2527.9755  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    2556.5819  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    2557.5271  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    2558.4605  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    2559.3939  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    2560.3273  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    2561.2646  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    2562.2019  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    2575.2696  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=131713
After=167721
NTopleaves= 146756  NTopnodes=167721 (space for 244687)
gravity work-load balance=1.00032   memory-balance=1.00032   SPH work-load balance=0
iter=0 exchange of 0011191909 particles (ret=0)
domain decomposition done. (took 1.04462 sec)
Freed 3.52322 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 3022.66 Mbyte (on task=0), Smallest = 1800.75 Mbyte, Average = 1835.16 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9710    1202.9850  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5312    1227.5162  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8853    1268.4015  fof_fof()/fof.c/337
   0 2975 0             Group      1.1050    1269.5066  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1246.2096    2515.7162  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.3175    2524.1587  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5598    2524.7185  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    255.6493    2780.3678  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base    213.0411    2993.4089  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9430    3008.3519  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    3022.6551  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.5153 sec  (presently allocated=3022.66 MB)
force_treebuild() took 1.97383 sec (presently allocated=3022.66 MB)
Start find_linkngb (43851 particles on task=0)
find linkngb iteration 1: need to repeat for 0010750721 particles. (took 0.876925 sec)
find linkngb iteration 2: need to repeat for 0009878746 particles. (took 0.617498 sec)
find linkngb iteration 3: need to repeat for 0009422136 particles. (took 0.420678 sec)
find linkngb iteration 4: need to repeat for 0008250102 particles. (took 0.476266 sec)
find linkngb iteration 5: need to repeat for 0006853959 particles. (took 0.406454 sec)
find linkngb iteration 6: need to repeat for 0004960837 particles. (took 0.369049 sec)
find linkngb iteration 7: need to repeat for 0003119233 particles. (took 0.251241 sec)
find linkngb iteration 8: need to repeat for 0001772668 particles. (took 0.150562 sec)
find linkngb iteration 9: need to repeat for 0000949383 particles. (took 0.0926859 sec)
find linkngb iteration 10: need to repeat for 0000491666 particles. (took 0.0562029 sec)
find linkngb iteration 11: need to repeat for 0000250143 particles. (took 0.0345759 sec)
find linkngb iteration 12: need to repeat for 0000053042 particles. (took 0.0226929 sec)
find linkngb iteration 13: need to repeat for 0000001118 particles. (took 0.010879 sec)
find linkngb iteration 14: need to repeat for 0000000360 particles. (took 0.000856876 sec)
find linkngb iteration 15: need to repeat for 0000000132 particles. (took 0.000564098 sec)
find linkngb iteration 16: need to repeat for 0000000044 particles. (took 0.00069499 sec)
find linkngb iteration 17: need to repeat for 0000000009 particles. (took 0.00046587 sec)
find linkngb iteration 18: need to repeat for 0000000002 particles. (took 0.000658989 sec)
find linkngb iteration 19: need to repeat for 0000000001 particles. (took 0.000466108 sec)
find linkngb iteration 20: need to repeat for 0000000001 particles. (took 0.000466824 sec)
find_linkngb() took 3.79138 sec
Start finding nearest two (43851 particles on task=0)
find_nearesttwo() took 0.693913 sec (presently allocated=3026 MB)
parallel sort of densities done. took 0.071502 sec
building distributed linked list. (presently allocated 3025.57 MB)
identification of primary candidates took 287.927 sec
adding background as candidate took 0.178196 sec
establishing of rank order took 88.0071 sec  (p=11237362, grouplen=11237362) presently allocated 3025.57 MB

total number of subhalo candidates=53317

number of subhalo candidates that can be done independently=46689.
(Largest size is 2882, finding them took 0.015177 sec)
particles are marked (took 63.9628)
independent subhalos are assembled on individual CPUs for unbinding (0.197615 sec, (presently allocated=3025.57 MB)
unbinding of independent ones took 0.089345 sec
particles have returned to their original processor (0.258844 sec, presently allocated 3025.57 MB)

number of subhalo candidates that can be done independently=6076.
(Largest size is 36621, finding them took 1.03195 sec)
particles are marked (took 43.7737)
independent subhalos are assembled on individual CPUs for unbinding (0.184526 sec, (presently allocated=3025.57 MB)
unbinding of independent ones took 1.16165 sec
particles have returned to their original processor (0.246286 sec, presently allocated 3025.57 MB)

number of subhalo candidates that can be done independently=505.
(Largest size is 103664, finding them took 1.01536 sec)
particles are marked (took 33.4043)
independent subhalos are assembled on individual CPUs for unbinding (0.175313 sec, (presently allocated=3025.57 MB)
unbinding of independent ones took 3.32735 sec
particles have returned to their original processor (0.244686 sec, presently allocated 3025.57 MB)

number of subhalo candidates that can be done independently=42.
(Largest size is 160358, finding them took 0.566143 sec)
particles are marked (took 29.9651)
independent subhalos are assembled on individual CPUs for unbinding (0.181384 sec, (presently allocated=3025.57 MB)
unbinding of independent ones took 7.52241 sec
particles have returned to their original processor (0.247939 sec, presently allocated 3025.57 MB)

number of subhalo candidates that can be done independently=3.
(Largest size is 1350163, finding them took 0.537989 sec)
too big candidates, I do the rest collectively

collective unbinding of nr=0 (5) of length=137848 ... maximum alloacted 3025.73 MB
took 3.59615 sec
collective unbinding of nr=1 (5) of length=1350163 ... maximum alloacted 3025.73 MB
took 22.3147 sec
collective unbinding of nr=2 (5) of length=7022 ... maximum alloacted 3025.73 MB
took 1.46487 sec
collective unbinding of nr=3 (5) of length=71330 ... maximum alloacted 3025.73 MB
took 2.96384 sec
collective unbinding of nr=4 (5) of length=11237362 ... maximum alloacted 3025.73 MB
took 197.245 sec

the collective unbinding of remaining halos took 250.884 sec

found 3448 bound substructures in FoF group of length 11237362
determination of parent subhalo took 0.0561719 sec (presently allocated 3025.73 MB)
determining substructure properties took 232.263 sec (presently allocated 3025.73 MB)

collectively doing halo 2, num=19
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2515.72 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2575.27 MB)
Before=132425
After=164993
NTopleaves= 144369  NTopnodes=164993 (space for 244687)
gravity work-load balance=1.00053   memory-balance=1.00053   SPH work-load balance=0
iter=0 exchange of 0009388689 particles (ret=0)
domain decomposition done. (took 0.998602 sec)
Freed 3.6481 MByte in top-level domain structure
coldomain_Decomposition() took 1.46065 sec  (presently allocated=3022.04 MB)
force_treebuild() took 1.99212 sec (presently allocated=3022.04 MB)
Start find_linkngb (36799 particles on task=0)
find linkngb iteration 1: need to repeat for 0009130917 particles. (took 0.740267 sec)
find linkngb iteration 2: need to repeat for 0008495086 particles. (took 0.520303 sec)
find linkngb iteration 3: need to repeat for 0008106274 particles. (took 0.36377 sec)
find linkngb iteration 4: need to repeat for 0007118129 particles. (took 0.400403 sec)
find linkngb iteration 5: need to repeat for 0005919203 particles. (took 0.339632 sec)
find linkngb iteration 6: need to repeat for 0004286656 particles. (took 0.279876 sec)
find linkngb iteration 7: need to repeat for 0002696581 particles. (took 0.19824 sec)
find linkngb iteration 8: need to repeat for 0001532840 particles. (took 0.127317 sec)
find linkngb iteration 9: need to repeat for 0000820393 particles. (took 0.0786829 sec)
find linkngb iteration 10: need to repeat for 0000426110 particles. (took 0.0480499 sec)
find linkngb iteration 11: need to repeat for 0000216333 particles. (took 0.030637 sec)
find linkngb iteration 12: need to repeat for 0000045848 particles. (took 0.0199349 sec)
find linkngb iteration 13: need to repeat for 0000000932 particles. (took 0.00988483 sec)
find linkngb iteration 14: need to repeat for 0000000284 particles. (took 0.000782013 sec)
find linkngb iteration 15: need to repeat for 0000000086 particles. (took 0.000521183 sec)
find linkngb iteration 16: need to repeat for 0000000032 particles. (took 0.000440121 sec)
find linkngb iteration 17: need to repeat for 0000000008 particles. (took 0.000416994 sec)
find_linkngb() took 3.16019 sec
Start finding nearest two (36799 particles on task=0)
find_nearesttwo() took 0.606206 sec (presently allocated=3024.85 MB)
parallel sort of densities done. took 0.065212 sec
building distributed linked list. (presently allocated 3024.48 MB)
identification of primary candidates took 236.655 sec
adding background as candidate took 0.158889 sec
establishing of rank order took 74.6087 sec  (p=9418624, grouplen=9418624) presently allocated 3024.48 MB

total number of subhalo candidates=45065

number of subhalo candidates that can be done independently=39428.
(Largest size is 3001, finding them took 0.0125871 sec)
particles are marked (took 54.4422)
independent subhalos are assembled on individual CPUs for unbinding (0.215083 sec, (presently allocated=3024.48 MB)
unbinding of independent ones took 0.0700819 sec
particles have returned to their original processor (0.257888 sec, presently allocated 3024.48 MB)

number of subhalo candidates that can be done independently=5173.
(Largest size is 17605, finding them took 1.04849 sec)
particles are marked (took 36.1186)
independent subhalos are assembled on individual CPUs for unbinding (0.182716 sec, (presently allocated=3024.48 MB)
unbinding of independent ones took 0.456609 sec
particles have returned to their original processor (0.247415 sec, presently allocated 3024.48 MB)

number of subhalo candidates that can be done independently=425.
(Largest size is 91789, finding them took 1.03011 sec)
particles are marked (took 28.8343)
independent subhalos are assembled on individual CPUs for unbinding (0.17072 sec, (presently allocated=3024.48 MB)
unbinding of independent ones took 3.30826 sec
particles have returned to their original processor (0.238808 sec, presently allocated 3024.48 MB)

number of subhalo candidates that can be done independently=35.
(Largest size is 288310, finding them took 1.00044 sec)
particles are marked (took 26.0097)
independent subhalos are assembled on individual CPUs for unbinding (0.179811 sec, (presently allocated=3024.48 MB)
unbinding of independent ones took 3.93313 sec
particles have returned to their original processor (0.254388 sec, presently allocated 3024.48 MB)

number of subhalo candidates that can be done independently=2.
(Largest size is 288310, finding them took 0.551399 sec)
particles are marked (took 23.6408)
independent subhalos are assembled on individual CPUs for unbinding (0.171147 sec, (presently allocated=3024.48 MB)
unbinding of independent ones took 3.63083 sec
particles have returned to their original processor (0.246554 sec, presently allocated 3024.48 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 288310, finding them took 0.548105 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=288310 ... maximum alloacted 3024.63 MB
took 5.48942 sec
collective unbinding of nr=1 (2) of length=9418624 ... maximum alloacted 3024.63 MB
took 162.65 sec

the collective unbinding of remaining halos took 187.909 sec

found 2925 bound substructures in FoF group of length 9418624
determination of parent subhalo took 0.0827279 sec (presently allocated 3024.63 MB)
determining substructure properties took 186.423 sec (presently allocated 3024.63 MB)

collectively doing halo 3, num=19
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2515.72 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2575.27 MB)
Before=136881
After=165177
NTopleaves= 144530  NTopnodes=165177 (space for 244687)
gravity work-load balance=1.00056   memory-balance=1.00056   SPH work-load balance=0
iter=0 exchange of 0007034105 particles (ret=0)
domain decomposition done. (took 1.00068 sec)
Freed 3.63968 MByte in top-level domain structure
coldomain_Decomposition() took 1.46007 sec  (presently allocated=3022.08 MB)
force_treebuild() took 1.9755 sec (presently allocated=3022.08 MB)
Start find_linkngb (27440 particles on task=0)
find linkngb iteration 1: need to repeat for 0006935980 particles. (took 0.533127 sec)
find linkngb iteration 2: need to repeat for 0006578137 particles. (took 0.368157 sec)
find linkngb iteration 3: need to repeat for 0006282167 particles. (took 0.25042 sec)
find linkngb iteration 4: need to repeat for 0005546569 particles. (took 0.307426 sec)
find linkngb iteration 5: need to repeat for 0004624985 particles. (took 0.243635 sec)
find linkngb iteration 6: need to repeat for 0003356055 particles. (took 0.201604 sec)
find linkngb iteration 7: need to repeat for 0002112386 particles. (took 0.14668 sec)
find linkngb iteration 8: need to repeat for 0001202442 particles. (took 0.095614 sec)
find linkngb iteration 9: need to repeat for 0000644145 particles. (took 0.0606751 sec)
find linkngb iteration 10: need to repeat for 0000333848 particles. (took 0.037951 sec)
find linkngb iteration 11: need to repeat for 0000170076 particles. (took 0.0247331 sec)
find linkngb iteration 12: need to repeat for 0000036216 particles. (took 0.0169342 sec)
find linkngb iteration 13: need to repeat for 0000000818 particles. (took 0.00916481 sec)
find linkngb iteration 14: need to repeat for 0000000239 particles. (took 0.000755072 sec)
find linkngb iteration 15: need to repeat for 0000000070 particles. (took 0.000482082 sec)
find linkngb iteration 16: need to repeat for 0000000016 particles. (took 0.000406027 sec)
find linkngb iteration 17: need to repeat for 0000000002 particles. (took 0.000393867 sec)
find_linkngb() took 2.29911 sec
Start finding nearest two (27440 particles on task=0)
find_nearesttwo() took 0.445002 sec (presently allocated=3024.18 MB)
parallel sort of densities done. took 0.0570171 sec
building distributed linked list. (presently allocated 3023.91 MB)
identification of primary candidates took 185.093 sec
adding background as candidate took 0.159421 sec
establishing of rank order took 56.6996 sec  (p=7061107, grouplen=7061107) presently allocated 3023.91 MB

total number of subhalo candidates=31202

number of subhalo candidates that can be done independently=27721.
(Largest size is 3335, finding them took 0.00857401 sec)
particles are marked (took 38.2262)
independent subhalos are assembled on individual CPUs for unbinding (0.177767 sec, (presently allocated=3023.91 MB)
unbinding of independent ones took 0.069629 sec
particles have returned to their original processor (0.242459 sec, presently allocated 3023.91 MB)

number of subhalo candidates that can be done independently=3209.
(Largest size is 14695, finding them took 1.02288 sec)
particles are marked (took 24.8926)
independent subhalos are assembled on individual CPUs for unbinding (0.173237 sec, (presently allocated=3023.91 MB)
unbinding of independent ones took 0.311895 sec
particles have returned to their original processor (0.238265 sec, presently allocated 3023.91 MB)

number of subhalo candidates that can be done independently=248.
(Largest size is 66563, finding them took 1.05581 sec)
particles are marked (took 21.8011)
independent subhalos are assembled on individual CPUs for unbinding (0.173247 sec, (presently allocated=3023.91 MB)
unbinding of independent ones took 2.19571 sec
particles have returned to their original processor (0.243283 sec, presently allocated 3023.91 MB)

number of subhalo candidates that can be done independently=18.
(Largest size is 403551, finding them took 0.540949 sec)
particles are marked (took 17.2844)
independent subhalos are assembled on individual CPUs for unbinding (0.166065 sec, (presently allocated=3023.91 MB)
unbinding of independent ones took 1.38366 sec
particles have returned to their original processor (0.236157 sec, presently allocated 3023.91 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 403551, finding them took 0.540068 sec)
particles are marked (took 14.3248)
independent subhalos are assembled on individual CPUs for unbinding (0.15639 sec, (presently allocated=3023.91 MB)
unbinding of independent ones took 0.0816159 sec
particles have returned to their original processor (0.221007 sec, presently allocated 3023.91 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 403551, finding them took 0.482357 sec)
particles are marked (took 14.6839)
independent subhalos are assembled on individual CPUs for unbinding (0.160307 sec, (presently allocated=3023.91 MB)
unbinding of independent ones took 0.653042 sec
particles have returned to their original processor (0.229053 sec, presently allocated 3023.91 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 403551, finding them took 0.500128 sec)
too few, I do the rest of 4 collectively

collective unbinding of nr=0 (4) of length=403551 ... maximum alloacted 3024.01 MB
took 9.78239 sec
collective unbinding of nr=1 (4) of length=249698 ... maximum alloacted 3024.01 MB
took 5.00852 sec
collective unbinding of nr=2 (4) of length=365504 ... maximum alloacted 3024.01 MB
took 10.0566 sec
collective unbinding of nr=3 (4) of length=7061107 ... maximum alloacted 3024.01 MB
took 126.478 sec

the collective unbinding of remaining halos took 164.922 sec

found 2572 bound substructures in FoF group of length 7061107
determination of parent subhalo took 0.0426381 sec (presently allocated 3024.01 MB)
determining substructure properties took 152.765 sec (presently allocated 3024.01 MB)

collectively doing halo 4, num=19
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2515.72 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2575.27 MB)
Before=139425
After=167033
NTopleaves= 146154  NTopnodes=167033 (space for 244687)
gravity work-load balance=1.00054   memory-balance=1.00054   SPH work-load balance=0
iter=0 exchange of 0005064709 particles (ret=0)
domain decomposition done. (took 0.980686 sec)
Freed 3.55472 MByte in top-level domain structure
coldomain_Decomposition() took 1.43772 sec  (presently allocated=3022.5 MB)
force_treebuild() took 1.96426 sec (presently allocated=3022.5 MB)
Start find_linkngb (19862 particles on task=0)
find linkngb iteration 1: need to repeat for 0005043260 particles. (took 0.378329 sec)
find linkngb iteration 2: need to repeat for 0004874849 particles. (took 0.254052 sec)
find linkngb iteration 3: need to repeat for 0004664701 particles. (took 0.191467 sec)
find linkngb iteration 4: need to repeat for 0004147630 particles. (took 0.202307 sec)
find linkngb iteration 5: need to repeat for 0003469750 particles. (took 0.171693 sec)
find linkngb iteration 6: need to repeat for 0002523813 particles. (took 0.14256 sec)
find linkngb iteration 7: need to repeat for 0001592103 particles. (took 0.104716 sec)
find linkngb iteration 8: need to repeat for 0000906743 particles. (took 0.0704989 sec)
find linkngb iteration 9: need to repeat for 0000485624 particles. (took 0.0454669 sec)
find linkngb iteration 10: need to repeat for 0000251838 particles. (took 0.0309539 sec)
find linkngb iteration 11: need to repeat for 0000128128 particles. (took 0.019959 sec)
find linkngb iteration 12: need to repeat for 0000027440 particles. (took 0.014482 sec)
find linkngb iteration 13: need to repeat for 0000000698 particles. (took 0.00820899 sec)
find linkngb iteration 14: need to repeat for 0000000234 particles. (took 0.000660896 sec)
find linkngb iteration 15: need to repeat for 0000000073 particles. (took 0.000473022 sec)
find linkngb iteration 16: need to repeat for 0000000021 particles. (took 0.000384092 sec)
find linkngb iteration 17: need to repeat for 0000000005 particles. (took 0.000396013 sec)
find linkngb iteration 18: need to repeat for 0000000001 particles. (took 0.00036478 sec)
find linkngb iteration 19: need to repeat for 0000000001 particles. (took 0.000370026 sec)
find_linkngb() took 1.63826 sec
Start finding nearest two (19862 particles on task=0)
find_nearesttwo() took 0.328519 sec (presently allocated=3024.02 MB)
parallel sort of densities done. took 0.051749 sec
building distributed linked list. (presently allocated 3023.82 MB)
identification of primary candidates took 134.716 sec
adding background as candidate took 0.15868 sec
establishing of rank order took 41.8429 sec  (p=5082943, grouplen=5082943) presently allocated 3023.82 MB

total number of subhalo candidates=21549

number of subhalo candidates that can be done independently=19320.
(Largest size is 3632, finding them took 0.00595593 sec)
particles are marked (took 27.0544)
independent subhalos are assembled on individual CPUs for unbinding (0.170622 sec, (presently allocated=3023.82 MB)
unbinding of independent ones took 0.057045 sec
particles have returned to their original processor (0.234026 sec, presently allocated 3023.82 MB)

number of subhalo candidates that can be done independently=2073.
(Largest size is 21902, finding them took 1.01595 sec)
particles are marked (took 17.651)
independent subhalos are assembled on individual CPUs for unbinding (0.170346 sec, (presently allocated=3023.82 MB)
unbinding of independent ones took 0.753659 sec
particles have returned to their original processor (0.236212 sec, presently allocated 3023.82 MB)

number of subhalo candidates that can be done independently=141.
(Largest size is 35781, finding them took 0.89717 sec)
particles are marked (took 13.2699)
independent subhalos are assembled on individual CPUs for unbinding (0.166674 sec, (presently allocated=3023.82 MB)
unbinding of independent ones took 1.09107 sec
particles have returned to their original processor (0.236814 sec, presently allocated 3023.82 MB)

number of subhalo candidates that can be done independently=9.
(Largest size is 151864, finding them took 0.535023 sec)
particles are marked (took 13.8214)
independent subhalos are assembled on individual CPUs for unbinding (0.191852 sec, (presently allocated=3023.82 MB)
unbinding of independent ones took 8.67656 sec
particles have returned to their original processor (0.274234 sec, presently allocated 3023.82 MB)

number of subhalo candidates that can be done independently=2.
(Largest size is 495788, finding them took 0.537553 sec)
particles are marked (took 10.6154)
independent subhalos are assembled on individual CPUs for unbinding (0.159998 sec, (presently allocated=3023.82 MB)
unbinding of independent ones took 1.35066 sec
particles have returned to their original processor (0.230901 sec, presently allocated 3023.82 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 495788, finding them took 0.526755 sec)
particles are marked (took 10.0233)
independent subhalos are assembled on individual CPUs for unbinding (0.155146 sec, (presently allocated=3023.82 MB)
unbinding of independent ones took 0.0650651 sec
particles have returned to their original processor (0.219571 sec, presently allocated 3023.82 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 495788, finding them took 0.482566 sec)
too few, I do the rest of 3 collectively

collective unbinding of nr=0 (3) of length=495788 ... maximum alloacted 3023.89 MB
took 11.7786 sec
collective unbinding of nr=1 (3) of length=177665 ... maximum alloacted 3023.89 MB
took 4.22431 sec
collective unbinding of nr=2 (3) of length=5082943 ... maximum alloacted 3023.89 MB
took 95.6166 sec

the collective unbinding of remaining halos took 121.109 sec

found 1870 bound substructures in FoF group of length 5082943
determination of parent subhalo took 0.0407381 sec (presently allocated 3023.89 MB)
determining substructure properties took 112.544 sec (presently allocated 3023.89 MB)

collectively doing halo 5, num=19
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2515.72 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2575.27 MB)
Before=141897
After=165697
NTopleaves= 144985  NTopnodes=165697 (space for 244687)
gravity work-load balance=1.00044   memory-balance=1.00044   SPH work-load balance=0
iter=0 exchange of 0003513638 particles (ret=0)
domain decomposition done. (took 0.947845 sec)
Freed 3.61588 MByte in top-level domain structure
coldomain_Decomposition() took 1.40604 sec  (presently allocated=3022.2 MB)
force_treebuild() took 1.96059 sec (presently allocated=3022.2 MB)
Start find_linkngb (13746 particles on task=0)
find linkngb iteration 1: need to repeat for 0003516441 particles. (took 0.257343 sec)
find linkngb iteration 2: need to repeat for 0003442757 particles. (took 0.202347 sec)
find linkngb iteration 3: need to repeat for 0003300679 particles. (took 0.117725 sec)
find linkngb iteration 4: need to repeat for 0002952149 particles. (took 0.133113 sec)
find linkngb iteration 5: need to repeat for 0002475143 particles. (took 0.115592 sec)
find linkngb iteration 6: need to repeat for 0001802102 particles. (took 0.0975771 sec)
find linkngb iteration 7: need to repeat for 0001137323 particles. (took 0.0736701 sec)
find linkngb iteration 8: need to repeat for 0000648004 particles. (took 0.0511501 sec)
find linkngb iteration 9: need to repeat for 0000347414 particles. (took 0.034025 sec)
find linkngb iteration 10: need to repeat for 0000179942 particles. (took 0.0226691 sec)
find linkngb iteration 11: need to repeat for 0000091637 particles. (took 0.016253 sec)
find linkngb iteration 12: need to repeat for 0000019973 particles. (took 0.012063 sec)
find linkngb iteration 13: need to repeat for 0000000495 particles. (took 0.0072968 sec)
find linkngb iteration 14: need to repeat for 0000000138 particles. (took 0.000564098 sec)
find linkngb iteration 15: need to repeat for 0000000039 particles. (took 0.000400066 sec)
find linkngb iteration 16: need to repeat for 0000000013 particles. (took 0.000350952 sec)
find linkngb iteration 17: need to repeat for 0000000002 particles. (took 0.000329018 sec)
find_linkngb() took 1.14331 sec
Start finding nearest two (13746 particles on task=0)
find_nearesttwo() took 0.229589 sec (presently allocated=3023.25 MB)
parallel sort of densities done. took 0.0472062 sec
building distributed linked list. (presently allocated 3023.11 MB)
identification of primary candidates took 92.619 sec
adding background as candidate took 0.158098 sec
establishing of rank order took 30.1247 sec  (p=3528415, grouplen=3528415) presently allocated 3023.11 MB

total number of subhalo candidates=15203

number of subhalo candidates that can be done independently=13617.
(Largest size is 4607, finding them took 0.00434089 sec)
particles are marked (took 19.0979)
independent subhalos are assembled on individual CPUs for unbinding (0.165199 sec, (presently allocated=3023.11 MB)
unbinding of independent ones took 0.078995 sec
particles have returned to their original processor (0.228697 sec, presently allocated 3023.11 MB)

number of subhalo candidates that can be done independently=1471.
(Largest size is 11840, finding them took 1.01356 sec)
particles are marked (took 11.9789)
independent subhalos are assembled on individual CPUs for unbinding (0.168045 sec, (presently allocated=3023.11 MB)
unbinding of independent ones took 0.23082 sec
particles have returned to their original processor (0.230348 sec, presently allocated 3023.11 MB)

number of subhalo candidates that can be done independently=108.
(Largest size is 76900, finding them took 0.991049 sec)
particles are marked (took 11.2405)
independent subhalos are assembled on individual CPUs for unbinding (0.170976 sec, (presently allocated=3023.11 MB)
unbinding of independent ones took 1.82949 sec
particles have returned to their original processor (0.246035 sec, presently allocated 3023.11 MB)

number of subhalo candidates that can be done independently=5.
(Largest size is 158948, finding them took 0.534526 sec)
particles are marked (took 9.95733)
independent subhalos are assembled on individual CPUs for unbinding (0.19911 sec, (presently allocated=3023.11 MB)
unbinding of independent ones took 10.3255 sec
particles have returned to their original processor (0.273316 sec, presently allocated 3023.11 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 67010, finding them took 0.537763 sec)
particles are marked (took 8.04526)
independent subhalos are assembled on individual CPUs for unbinding (0.165395 sec, (presently allocated=3023.11 MB)
unbinding of independent ones took 1.43353 sec
particles have returned to their original processor (0.241452 sec, presently allocated 3023.11 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 3528415, finding them took 0.558048 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=3528415 ... maximum alloacted 3023.17 MB
took 60.845 sec

the collective unbinding of remaining halos took 67.5172 sec

found 1285 bound substructures in FoF group of length 3528415
determination of parent subhalo took 0.0368609 sec (presently allocated 3023.17 MB)
determining substructure properties took 74.7418 sec (presently allocated 3023.17 MB)
processing of collective halos took 3571.21 sec
sort of local particles()() took 0.618708 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 626.097 sec

Task 214: testing particles ...
Task 235: testing particles ...
Task 4: testing particles ...
Task 190: testing particles ...
Task 1: testing particles ...
Task 251: testing particles ...
Task 174: testing particles ...
Task 224: testing particles ...
Task 218: testing particles ...
Task 197: testing particles ...
Task 211: testing particles ...
Task 247: testing particles ...
Task 166: testing particles ...
Task 157: testing particles ...
Task 230: testing particles ...
Task 182: testing particles ...
Task 213: testing particles ...
Task 3: testing particles ...
Task 234: testing particles ...
Task 195: testing particles ...
Task 216: testing particles ...
Task 212: testing particles ...
Task 232: testing particles ...
Task 145: testing particles ...
Task 205: testing particles ...
Task 254: testing particles ...
Task 253: testing particles ...
Task 132: testing particles ...
Task 167: testing particles ...
Task 176: testing particles ...
Task 168: testing particles ...
Task 208: testing particles ...
Task 191: testing particles ...
Task 142: testing particles ...
Task 240: testing particles ...
Task 239: testing particles ...
Task 187: testing particles ...
Task 227: testing particles ...
Task 139: testing particles ...
Task 194: testing particles ...
Task 238: testing particles ...
Task 102: testing particles ...
Task 202: testing particles ...
Task 178: testing particles ...
Task 207: testing particles ...
Task 219: testing particles ...
Task 117: testing particles ...
Task 231: testing particles ...
Task 203: testing particles ...
Task 111: testing particles ...
Task 173: testing particles ...
Task 154: testing particles ...
Task 129: testing particles ...
Task 245: testing particles ...
Task 242: testing particles ...
Task 118: testing particles ...
Task 255: testing particles ...
Task 172: testing particles ...
Task 246: testing particles ...
Task 201: testing particles ...
Task 137: testing particles ...
Task 89: testing particles ...
Task 135: testing particles ...
Task 127: testing particles ...
Task 185: testing particles ...
Task 2: testing particles ...
Task 163: testing particles ...
Task 198: testing particles ...
Task 95: testing particles ...
Task 183: testing particles ...
Task 149: testing particles ...
Task 241: testing particles ...
Task 175: testing particles ...
Task 151: testing particles ...
Task 206: testing particles ...
Task 108: testing particles ...
Task 222: testing particles ...
Task 236: testing particles ...
Task 156: testing particles ...
Task 244: testing particles ...
Task 165: testing particles ...
Task 220: testing particles ...
Task 196: testing particles ...
Task 120: testing particles ...
Task 141: testing particles ...
Task 98: testing particles ...
Task 223: testing particles ...
Task 243: testing particles ...
Task 237: testing particles ...
Task 184: testing particles ...
Task 189: testing particles ...
Task 217: testing particles ...
Task 225: testing particles ...
Task 104: testing particles ...
Task 181: testing particles ...
Task 75: testing particles ...
Task 115: testing particles ...
Task 193: testing particles ...
Task 136: testing particles ...
Task 63: testing particles ...
Task 146: testing particles ...
Task 155: testing particles ...
Task 233: testing particles ...
Task 148: testing particles ...
Task 159: testing particles ...
Task 147: testing particles ...
Task 226: testing particles ...
Task 249: testing particles ...
Task 188: testing particles ...
Task 119: testing particles ...
Task 80: testing particles ...
Task 210: testing particles ...
Task 186: testing particles ...
unsorting of local particles()() took 0.573519 sec
Task 0: testing particles ...
Task 152: testing particles ...
Task 248: testing particles ...
Task 110: testing particles ...
Task 162: testing particles ...
Task 130: testing particles ...
Task 252: testing particles ...
Task 250: testing particles ...
Task 192: testing particles ...
Task 169: testing particles ...
Task 133: testing particles ...
Task 57: testing particles ...
Task 86: testing particles ...
Task 123: testing particles ...
Task 160: testing particles ...
Task 144: testing particles ...
Task 101: testing particles ...
Task 200: testing particles ...
Task 71: testing particles ...
Task 228: testing particles ...
Task 121: testing particles ...
Task 138: testing particles ...
Task 209: testing particles ...
Task 140: testing particles ...
Task 179: testing particles ...
Task 96: testing particles ...
Task 82: testing particles ...
Task 93: testing particles ...
Task 177: testing particles ...
Task 221: testing particles ...
Task 164: testing particles ...
Task 66: testing particles ...
Task 204: testing particles ...
Task 122: testing particles ...
Task 161: testing particles ...
Task 125: testing particles ...
Task 109: testing particles ...
Task 215: testing particles ...
Task 199: testing particles ...
Task 134: testing particles ...
Task 114: testing particles ...
Task 105: testing particles ...
Task 61: testing particles ...
Task 143: testing particles ...
Task 150: testing particles ...
Task 99: testing particles ...
Task 87: testing particles ...
Task 128: testing particles ...
Task 229: testing particles ...
Task 88: testing particles ...
Task 180: testing particles ...
Task 56: testing particles ...
Task 116: testing particles ...
Task 74: testing particles ...
Task 69: testing particles ...
Task 77: testing particles ...
Task 126: testing particles ...
Task 62: testing particles ...
Task 170: testing particles ...
Task 81: testing particles ...
Task 171: testing particles ...
Task 73: testing particles ...
Task 79: testing particles ...
Task 92: testing particles ...
Task 153: testing particles ...
Task 131: testing particles ...
Task 106: testing particles ...
Task 85: testing particles ...
Task 72: testing particles ...
Task 78: testing particles ...
Task 54: testing particles ...
Task 59: testing particles ...
Task 52: testing particles ...
Task 113: testing particles ...
Task 84: testing particles ...
Task 112: testing particles ...
Task 158: testing particles ...
Task 58: testing particles ...
Task 76: testing particles ...
Task 94: testing particles ...
Task 103: testing particles ...
Task 55: testing particles ...
Task 46: testing particles ...
Task 50: testing particles ...
Task 70: testing particles ...
Task 124: testing particles ...
Task 100: testing particles ...
Task 90: testing particles ...
Task 47: testing particles ...
Task 67: testing particles ...
Task 68: testing particles ...
Task 49: testing particles ...
Task 97: testing particles ...
Task 43: testing particles ...
Task 65: testing particles ...
Task 48: testing particles ...
Task 107: testing particles ...
Task 51: testing particles ...
Task 91: testing particles ...
Task 36: testing particles ...
Task 64: testing particles ...
Task 40: testing particles ...
Task 38: testing particles ...
Task 83: testing particles ...
Task 60: testing particles ...
Task 42: testing particles ...
Task 35: testing particles ...
Task 31: testing particles ...
Task 39: testing particles ...
Task 45: testing particles ...
Task 26: testing particles ...
Task 44: testing particles ...
Task 33: testing particles ...
Task 34: testing particles ...
Task 22: testing particles ...
Task 53: testing particles ...
Task 27: testing particles ...
Task 41: testing particles ...
Task 30: testing particles ...
Task 23: testing particles ...
Task 25: testing particles ...
Task 20: testing particles ...
Task 37: testing particles ...
Task 29: testing particles ...
Task 21: testing particles ...
Task 32: testing particles ...
Task 28: testing particles ...
Task 19: testing particles ...
Task 15: testing particles ...
Task 13: testing particles ...
Task 17: testing particles ...
Task 24: testing particles ...
Task 18: testing particles ...
Task 14: testing particles ...
Task 16: testing particles ...
Task 12: testing particles ...
Task 11: testing particles ...
Task 10: testing particles ...
Task 9: testing particles ...
Task 7: testing particles ...
Task 8: testing particles ...
Task 6: testing particles ...
Task 5: testing particles ...
subfind_exchange() (for return to original CPU)  took 3.61811 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2515.72 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2575.27 MB)
Before=187489
After=205209
NTopleaves= 179558  NTopnodes=205209 (space for 244687)
gravity work-load balance=1.00042   memory-balance=1.00042   SPH work-load balance=0
iter=0 exchange of 0273348007 particles (ret=0)
domain decomposition done. (took 3.99716 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.80716 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000164831 particles. (took 0.0288391 sec)
SO iteration 2: need to repeat for 0000164831 particles. (took 0.0236251 sec)
SO iteration 3: need to repeat for 0000164831 particles. (took 0.023845 sec)
SO iteration 4: need to repeat for 0000164831 particles. (took 0.023782 sec)
SO iteration 5: need to repeat for 0000164831 particles. (took 0.023989 sec)
SO iteration 6: need to repeat for 0000164831 particles. (took 0.023962 sec)
SO iteration 7: need to repeat for 0000164831 particles. (took 0.0237958 sec)
SO iteration 8: need to repeat for 0000164831 particles. (took 0.0237989 sec)
SO iteration 9: need to repeat for 0000164831 particles. (took 0.0238008 sec)
SO iteration 10: need to repeat for 0000164831 particles. (took 0.0237949 sec)
SO iteration 11: need to repeat for 0000164831 particles. (took 0.0238881 sec)
SO iteration 12: need to repeat for 0000164831 particles. (took 0.0237989 sec)
SO iteration 13: need to repeat for 0000164831 particles. (took 0.0237629 sec)
SO iteration 14: need to repeat for 0000164831 particles. (took 0.0239282 sec)
SO iteration 15: need to repeat for 0000164364 particles. (took 0.0237899 sec)
SO iteration 16: need to repeat for 0000000533 particles. (took 0.0229249 sec)
SO iteration 17: need to repeat for 0000000050 particles. (took 0.00105095 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000614166 sec)
SO iteration 1: need to repeat for 0000164831 particles. (took 0.0238299 sec)
SO iteration 2: need to repeat for 0000164831 particles. (took 0.020905 sec)
SO iteration 3: need to repeat for 0000164831 particles. (took 0.0215871 sec)
SO iteration 4: need to repeat for 0000164831 particles. (took 0.0212731 sec)
SO iteration 5: need to repeat for 0000164831 particles. (took 0.021359 sec)
SO iteration 6: need to repeat for 0000164831 particles. (took 0.0213771 sec)
SO iteration 7: need to repeat for 0000164831 particles. (took 0.021313 sec)
SO iteration 8: need to repeat for 0000164831 particles. (took 0.021498 sec)
SO iteration 9: need to repeat for 0000164831 particles. (took 0.021637 sec)
SO iteration 10: need to repeat for 0000164831 particles. (took 0.0214489 sec)
SO iteration 11: need to repeat for 0000164831 particles. (took 0.0214 sec)
SO iteration 12: need to repeat for 0000164831 particles. (took 0.0215659 sec)
SO iteration 13: need to repeat for 0000164831 particles. (took 0.0214739 sec)
SO iteration 14: need to repeat for 0000164831 particles. (took 0.021389 sec)
SO iteration 15: need to repeat for 0000164733 particles. (took 0.0214052 sec)
SO iteration 16: need to repeat for 0000023989 particles. (took 0.021452 sec)
SO iteration 17: need to repeat for 0000000362 particles. (took 0.00746202 sec)
SO iteration 18: need to repeat for 0000000044 particles. (took 0.000922918 sec)
SO iteration 1: need to repeat for 0000164831 particles. (took 0.023813 sec)
SO iteration 2: need to repeat for 0000164831 particles. (took 0.0208881 sec)
SO iteration 3: need to repeat for 0000164831 particles. (took 0.0189788 sec)
SO iteration 4: need to repeat for 0000164831 particles. (took 0.033035 sec)
SO iteration 5: need to repeat for 0000164831 particles. (took 0.0253439 sec)
SO iteration 6: need to repeat for 0000164831 particles. (took 0.0193141 sec)
SO iteration 7: need to repeat for 0000164831 particles. (took 0.0263572 sec)
SO iteration 8: need to repeat for 0000164831 particles. (took 0.0307522 sec)
SO iteration 9: need to repeat for 0000164831 particles. (took 0.0267439 sec)
SO iteration 10: need to repeat for 0000164831 particles. (took 0.020252 sec)
SO iteration 11: need to repeat for 0000164831 particles. (took 0.019336 sec)
SO iteration 12: need to repeat for 0000164831 particles. (took 0.019371 sec)
SO iteration 13: need to repeat for 0000164831 particles. (took 0.0191598 sec)
SO iteration 14: need to repeat for 0000164831 particles. (took 0.019248 sec)
SO iteration 15: need to repeat for 0000164824 particles. (took 0.0193431 sec)
SO iteration 16: need to repeat for 0000164804 particles. (took 0.01932 sec)
SO iteration 17: need to repeat for 0000040473 particles. (took 0.0193429 sec)
SO iteration 18: need to repeat for 0000000739 particles. (took 0.00953293 sec)
SO iteration 19: need to repeat for 0000000083 particles. (took 0.000965118 sec)
SO iteration 1: need to repeat for 0000164831 particles. (took 0.023783 sec)
SO iteration 2: need to repeat for 0000164831 particles. (took 0.021152 sec)
SO iteration 3: need to repeat for 0000164831 particles. (took 0.0224571 sec)
SO iteration 4: need to repeat for 0000164831 particles. (took 0.022764 sec)
SO iteration 5: need to repeat for 0000164831 particles. (took 0.023057 sec)
SO iteration 6: need to repeat for 0000164831 particles. (took 0.0229869 sec)
SO iteration 7: need to repeat for 0000164831 particles. (took 0.0229871 sec)
SO iteration 8: need to repeat for 0000164831 particles. (took 0.0230069 sec)
SO iteration 9: need to repeat for 0000164831 particles. (took 0.0230699 sec)
SO iteration 10: need to repeat for 0000164831 particles. (took 0.0231299 sec)
SO iteration 11: need to repeat for 0000164831 particles. (took 0.0233738 sec)
SO iteration 12: need to repeat for 0000164831 particles. (took 0.0235441 sec)
SO iteration 13: need to repeat for 0000164831 particles. (took 0.0231259 sec)
SO iteration 14: need to repeat for 0000164831 particles. (took 0.0230911 sec)
SO iteration 15: need to repeat for 0000164518 particles. (took 0.0232179 sec)
SO iteration 16: need to repeat for 0000001262 particles. (took 0.023066 sec)
SO iteration 17: need to repeat for 0000000084 particles. (took 0.00146198 sec)
SO iteration 18: need to repeat for 0000000002 particles. (took 0.000671148 sec)
SO iteration 1: need to repeat for 0000164831 particles. (took 0.023849 sec)
SO iteration 2: need to repeat for 0000164831 particles. (took 0.021085 sec)
SO iteration 3: need to repeat for 0000164831 particles. (took 0.0218649 sec)
SO iteration 4: need to repeat for 0000164831 particles. (took 0.0221119 sec)
SO iteration 5: need to repeat for 0000164831 particles. (took 0.0219381 sec)
SO iteration 6: need to repeat for 0000164831 particles. (took 0.0221081 sec)
SO iteration 7: need to repeat for 0000164831 particles. (took 0.021955 sec)
SO iteration 8: need to repeat for 0000164831 particles. (took 0.0220129 sec)
SO iteration 9: need to repeat for 0000164831 particles. (took 0.0220802 sec)
SO iteration 10: need to repeat for 0000164831 particles. (took 0.0222359 sec)
SO iteration 11: need to repeat for 0000164831 particles. (took 0.0221338 sec)
SO iteration 12: need to repeat for 0000164831 particles. (took 0.0220351 sec)
SO iteration 13: need to repeat for 0000164831 particles. (took 0.0221691 sec)
SO iteration 14: need to repeat for 0000164831 particles. (took 0.022047 sec)
SO iteration 15: need to repeat for 0000164672 particles. (took 0.0225902 sec)
SO iteration 16: need to repeat for 0000007613 particles. (took 0.0220468 sec)
SO iteration 17: need to repeat for 0000000206 particles. (took 0.00402403 sec)
SO iteration 18: need to repeat for 0000000019 particles. (took 0.000940084 sec)
SO iteration 1: need to repeat for 0000164831 particles. (took 0.024008 sec)
SO iteration 2: need to repeat for 0000164831 particles. (took 0.0211229 sec)
SO iteration 3: need to repeat for 0000164831 particles. (took 0.0202961 sec)
SO iteration 4: need to repeat for 0000164831 particles. (took 0.0205312 sec)
SO iteration 5: need to repeat for 0000164831 particles. (took 0.0208578 sec)
SO iteration 6: need to repeat for 0000164831 particles. (took 0.021101 sec)
SO iteration 7: need to repeat for 0000164831 particles. (took 0.0206969 sec)
SO iteration 8: need to repeat for 0000164831 particles. (took 0.0211971 sec)
SO iteration 9: need to repeat for 0000164831 particles. (took 0.021349 sec)
SO iteration 10: need to repeat for 0000164831 particles. (took 0.0215521 sec)
SO iteration 11: need to repeat for 0000164831 particles. (took 0.0207691 sec)
SO iteration 12: need to repeat for 0000164831 particles. (took 0.020709 sec)
SO iteration 13: need to repeat for 0000164831 particles. (took 0.0211201 sec)
SO iteration 14: need to repeat for 0000164831 particles. (took 0.020896 sec)
SO iteration 15: need to repeat for 0000164794 particles. (took 0.020848 sec)
SO iteration 16: need to repeat for 0000164643 particles. (took 0.020932 sec)
SO iteration 17: need to repeat for 0000001828 particles. (took 0.021132 sec)
SO iteration 18: need to repeat for 0000000152 particles. (took 0.00166798 sec)
SO iteration 19: need to repeat for 0000000004 particles. (took 0.00087595 sec)
SO iteration 1: need to repeat for 0000164831 particles. (took 0.023926 sec)
SO iteration 2: need to repeat for 0000164831 particles. (took 0.0312459 sec)
SO iteration 3: need to repeat for 0000164831 particles. (took 0.0232 sec)
SO iteration 4: need to repeat for 0000164831 particles. (took 0.036557 sec)
SO iteration 5: need to repeat for 0000164831 particles. (took 0.0358131 sec)
SO iteration 6: need to repeat for 0000164831 particles. (took 0.0277731 sec)
SO iteration 7: need to repeat for 0000164831 particles. (took 0.019182 sec)
SO iteration 8: need to repeat for 0000164831 particles. (took 0.019043 sec)
SO iteration 9: need to repeat for 0000164831 particles. (took 0.0191929 sec)
SO iteration 10: need to repeat for 0000164831 particles. (took 0.0198021 sec)
SO iteration 11: need to repeat for 0000164831 particles. (took 0.0196581 sec)
SO iteration 12: need to repeat for 0000164831 particles. (took 0.019455 sec)
SO iteration 13: need to repeat for 0000164831 particles. (took 0.019619 sec)
SO iteration 14: need to repeat for 0000164831 particles. (took 0.0192709 sec)
SO iteration 15: need to repeat for 0000164828 particles. (took 0.0195892 sec)
SO iteration 16: need to repeat for 0000164819 particles. (took 0.0192752 sec)
SO iteration 17: need to repeat for 0000160320 particles. (took 0.0190029 sec)
SO iteration 18: need to repeat for 0000006453 particles. (took 0.0189862 sec)
SO iteration 19: need to repeat for 0000000212 particles. (took 0.00301099 sec)
SO iteration 20: need to repeat for 0000000009 particles. (took 0.000674963 sec)
determining spherical overdensity masses took 2.645 sec
finding spherical overdensity particles took 0.606014 sec
determining contamination of halos took 0.229594 sec
Global sort of Groups took 0.1827 sec
Global sort of SubGroups took 0.758463 sec
Global sort of IDs took 0.55496 sec
Writing block 0 (GLEN), n=784, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3136d
Writing block 1 (GOFF), n=784, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3136d
Writing block 2 (MTOT), n=784, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3136d
Writing block 3 (GPOS), n=784, ptype=0, dtype=1, ndim=3, bpb=4 bytes=9408d
Writing block 4 (MMEA), n=784, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3136d
Writing block 5 (RMEA), n=784, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3136d
Writing block 6 (MCRI), n=784, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3136d
Writing block 7 (RCRI), n=784, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3136d
Writing block 8 (MTOP), n=784, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3136d
Writing block 9 (RTOP), n=784, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3136d
Writing block 17 (NCON), n=784, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3136d
Writing block 18 (MCON), n=784, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3136d
Writing block 22 (NSUB), n=784, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3136d
Writing block 23 (FSUB), n=784, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3136d
Writing block 24 (SLEN), n=4200, ptype=1, dtype=0, ndim=1, bpb=4 bytes=16800d
Writing block 25 (SOFF), n=4200, ptype=1, dtype=0, ndim=1, bpb=4 bytes=16800d
Writing block 27 (MSUB), n=4200, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 28 (SPOS), n=4200, ptype=1, dtype=1, ndim=3, bpb=4 bytes=50400d
Writing block 29 (SVEL), n=4200, ptype=1, dtype=1, ndim=3, bpb=4 bytes=50400d
Writing block 30 (SCM ), n=4200, ptype=1, dtype=1, ndim=3, bpb=4 bytes=50400d
Writing block 33 (VMAX), n=4200, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 34 (RMAX), n=4200, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 35 (RHMS), n=4200, ptype=1, dtype=1, ndim=6, bpb=4 bytes=100800d
Writing block 36 (MTRH), n=4200, ptype=1, dtype=1, ndim=6, bpb=4 bytes=100800d
Writing block 37 (MBID), n=4200, ptype=1, dtype=2, ndim=1, bpb=8 bytes=33600d
Writing block 38 (GRNR), n=4200, ptype=1, dtype=0, ndim=1, bpb=4 bytes=16800d
Writing block 39 (SUBN), n=4200, ptype=1, dtype=0, ndim=1, bpb=4 bytes=16800d
Writing block 40 (SMST), n=4200, ptype=1, dtype=1, ndim=6, bpb=4 bytes=100800d
Writing block 53 (PID ), n=588128, ptype=2, dtype=2, ndim=1, bpb=8 bytes=4705024d
Writing block 54 (SLEN), n=4200, ptype=1, dtype=0, ndim=6, bpb=4 bytes=100800d
Writing block 55 (STEN), n=4200, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 56 (SKEN), n=4200, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 57 (SUEN), n=4200, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 58 (SUIT), n=4200, ptype=1, dtype=1, ndim=9, bpb=4 bytes=151200d
Writing block 59 (BHMA), n=4200, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 60 (BHMD), n=4200, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 61 (SVD ), n=4200, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 62 (SVDH), n=4200, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 63 (HMPR), n=4200, ptype=1, dtype=1, ndim=6, bpb=4 bytes=100800d
Writing block 64 (SSFR), n=4200, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 65 (SSA ), n=4200, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 66 (SSBZ), n=4200, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 67 (SSIM), n=4200, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 68 (SSPI), n=4200, ptype=4, dtype=1, ndim=3, bpb=4 bytes=50400d
Writing block 69 (GSPI), n=4200, ptype=1, dtype=1, ndim=3, bpb=4 bytes=50400d
Writing block 70 (FSPI), n=4200, ptype=5, dtype=1, ndim=3, bpb=4 bytes=50400d
Writing block 71 (SFM ), n=4200, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 72 (SFMT), n=4200, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 73 (SFME), n=4200, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 74 (SFAE), n=4200, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 75 (SFKE), n=4200, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 76 (SFTE), n=4200, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 77 (SMWP), n=4200, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 78 (SMM ), n=4200, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 79 (SMMS), n=4200, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 80 (SFZ ), n=4200, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 81 (SFZS), n=4200, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 82 (SSIA), n=4200, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 83 (SIAS), n=4200, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 84 (SMET), n=4200, ptype=5, dtype=1, ndim=9, bpb=4 bytes=151200d
Writing block 85 (SMTS), n=4200, ptype=5, dtype=1, ndim=9, bpb=4 bytes=151200d
Writing block 86 (MF1 ), n=4200, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 87 (MeF1), n=4200, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 88 (MF  ), n=4200, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 89 (MeF2), n=4200, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 90 (MFA ), n=4200, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 91 (MeFA), n=4200, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 92 (NSPI), n=4200, ptype=6, dtype=1, ndim=3, bpb=4 bytes=50400d
Writing block 93 (NFM ), n=4200, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 94 (NFMT), n=4200, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 95 (NFME), n=4200, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 96 (NFAE), n=4200, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 97 (NFKE), n=4200, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 98 (NFTE), n=4200, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 99 (SMWP), n=4200, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 100 (SMM ), n=4200, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 101 (SMMS), n=4200, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 102 (SSIA), n=4200, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 103 (SIAS), n=4200, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 104 (SMET), n=4200, ptype=6, dtype=1, ndim=9, bpb=4 bytes=151200d
Writing block 105 (SMTS), n=4200, ptype=6, dtype=1, ndim=9, bpb=4 bytes=151200d
Writing block 106 (MF1 ), n=4200, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 107 (MeF1), n=4200, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 108 (MF2 ), n=4200, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 109 (MeF2), n=4200, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 110 (MFA ), n=4200, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 111 (MeFA), n=4200, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 112 (SM  ), n=4200, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 113 (SFKE), n=4200, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 114 (SFAE), n=4200, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 115 (SMWP), n=4200, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 116 (SMM ), n=4200, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 117 (SMMS), n=4200, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 118 (SSIA), n=4200, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 119 (SIAS), n=4200, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 120 (SMET), n=4200, ptype=4, dtype=1, ndim=9, bpb=4 bytes=151200d
Writing block 121 (SMTS), n=4200, ptype=4, dtype=1, ndim=9, bpb=4 bytes=151200d
Writing block 122 (MF1 ), n=4200, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 123 (MeF1), n=4200, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 124 (MF2 ), n=4200, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 125 (MeF2), n=4200, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 126 (MFA ), n=4200, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 127 (MeFA), n=4200, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16800d
Writing block 128 (MMe5), n=784, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3136d
Writing block 129 (RMe5), n=784, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3136d
Writing block 130 (MCr5), n=784, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3136d
Writing block 131 (RCr5), n=784, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3136d
Writing block 132 (MMe2), n=784, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3136d
Writing block 133 (RMe2), n=784, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3136d
Writing block 134 (MCr2), n=784, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3136d
Writing block 135 (RCr2), n=784, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3136d
Writing block 136 (MAPT), n=4200, ptype=7, dtype=1, ndim=60, bpb=4 bytes=1008000d
Writing block 137 (SAPT), n=4200, ptype=8, dtype=1, ndim=10, bpb=4 bytes=168000d
Writing block 138 (VAPT), n=4200, ptype=9, dtype=1, ndim=10, bpb=4 bytes=168000d
Writing block 139 (BEGY), n=588128, ptype=2, dtype=1, ndim=1, bpb=4 bytes=2352512d
Subgroup catalogues saved. took = 6.84168 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 6.945610e-01
 eagle_ph_key_ort: type= 2 timed by volker 5.429602e-02
 eagle_ph_key_ort: type= 3 timed by volker 5.071807e-02
 eagle_ph_key_ort: type= 4 timed by volker 5.071807e-02
 eagle_ph_key_ort: type= 5 timed by volker 5.071807e-02
 eagle_ph_key_ort: timing parallel sort = 8.079040e-01
 eagle_fetch_elements: we are using 1182587475 bytes of memory, FreeBytes= 1478234344

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 2540.25 Mbyte (on task=0), Smallest = 1318.34 Mbyte, Average = 1352.74 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9710    1202.9850  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5312    1227.5162  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8853    1268.4015  fof_fof()/fof.c/337
   0 2975 0             Group      1.1050    1269.5066  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1246.2096    2515.7162  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5297    2540.2459  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1287777 number of bytes = 412088640

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3668.04 Mbyte (on task=0), Smallest = 2446.1 Mbyte, Average = 2480.4 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9710    1202.9850  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5312    1227.5162  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8853    1268.4015  fof_fof()/fof.c/337
   0 2975 0             Group      1.1050    1269.5066  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1246.2096    2515.7162  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5297    2540.2459  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      4.9125    2545.1584  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      4.9125    2550.0708  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      4.9125    2554.9833  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    392.9984    2947.9817  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    392.9984    3340.9800  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    327.0621    3668.0421  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.441858e+00
 eagle_fetch_elements: we are using 1182587475 bytes of memory, FreeBytes= 1478234344
 eagle_fetch_elements: max_bytes= 504, max_elements= 1159399 number of bytes = 584337096
 eagle_ph_key_ort: timing parallel SphP exchange = 4.099131e-03
 eagle_fetch_elements: we are using 1182587475 bytes of memory, FreeBytes= 1478234344
 eagle_fetch_elements: max_bytes= 384, max_elements= 1516137 number of bytes = 582196608
 eagle_ph_key_ort: timing parallel MetP exchange = 5.269051e-04
 eagle_fetch_elements: we are using 1182587475 bytes of memory, FreeBytes= 1478234344
 eagle_fetch_elements: max_bytes= 256, max_elements= 2256846 number of bytes = 577752576
 eagle_ph_key_ort: timing parallel BHP exchange = 5.049706e-04
Sorting particle-data by peano-hilbert key took = 3.63339 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1182587475 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1287777 number of bytes= 412088640
 eagle_ph_restore: timing parallel P exchange = 2.539096e+00
 eagle_send_elements: we are using 1182587475 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1159399 number of bytes= 584337096
 eagle_ph_restore: timing parallel SphP exchange = 2.817869e-03
 eagle_send_elements: we are using 1182587475 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1516137 number of bytes= 582196608
 eagle_ph_restore: timing parallel MetP exchange = 7.879734e-04
 eagle_send_elements: we are using 1182587475 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 2256846 number of bytes= 577752576
 eagle_ph_restore: timing parallel BHP exchange = 7.438660e-04
Restoring original order after ph key sorting took = 2.55966 sec

finished writing particle file...

Finished with SUBFIND.  (total time=4357.1 sec)

Finished computing FoF groups.  (presently allocated=1202.99 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=181305
After=200753
NTopleaves= 175659  NTopnodes=200753 (space for 244687)
gravity work-load balance=1.00055   memory-balance=1.00055   SPH work-load balance=0
iter=0 exchange of 0273269442 particles (ret=0)
domain decomposition done. (took 3.92657 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.01114 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
task 16: endrun called with an error level of 124


task 16: endrun called with an error level of 124


task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
task 128: endrun called with an error level of 124


task 128: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
task 160: endrun called with an error level of 124


task 160: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
task 176: endrun called with an error level of 124


task 176: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
task 192: endrun called with an error level of 124


task 192: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
Finished FOF, total time doing fof/subfind = 4417.99 s
task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.93 Mb (on task=112), Smallest =   62646.55 Mb (on task=0), Average =   62686.88 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1885.51 Mb (on task=0), Smallest =    1798.13 Mb (on task=112), Average =    1845.19 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16342.36 Mb (on task=0), Average =   16352.21 Mb
AllocMem:	 Largest =    1885.51 Mb (on task=0), Smallest =    1798.13 Mb (on task=112), Average =    1845.19 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_020_z000p352/snap_020_z000p352.0.hdf5' on task=0 (contains 17330799 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  17174907  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     11897  (tot=     0000303834) masstab=0
Type 3 (bulge):   143995  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.756128

Setting next time for line of sight file to Time_next= 0.741948

Setting next time for snipshot file to Time_next= 0.747438

Setting next time for fof output to Time_next= 0.747438
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.28145 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=195697
After=198945
NTopleaves= 174077  NTopnodes=198945 (space for 244687)
gravity work-load balance=1.00032   memory-balance=1.00032   SPH work-load balance=0
iter=0 exchange of 0273133677 particles (ret=0)
domain decomposition done. (took 10.5216 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.0939 MByte in top-level domain structure

Allocated 503.297 MByte for BH-tree, and 0.664051 Mbyte for top-leaves.  (presently allocted 1706.84 MB)

Begin Ngb-tree construction.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1753.01 Mbyte (on task=30), Smallest = 1752.97 Mbyte, Average = 1753.01 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  30 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
  30 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
  30 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
  30 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
  30 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
  30 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
  30 2972 0          TopNodes      9.8659    1202.8809  domain_allocate()/domain.c/570
  30 2973 0   DomainNodeIndex      0.6641    1203.5450  force_treeallocate()/forcetree.c/4800
  30 2974 0        Nodes_base    258.5079    1462.0529  force_treeallocate()/forcetree.c/4803
  30 2975 0     Extnodes_base    215.4233    1677.4762  force_treeallocate()/forcetree.c/4811
  30 2976 0          Nextnode     15.0621    1692.5383  force_treeallocate()/forcetree.c/4820
  30 2977 0            Father     14.3032    1706.8416  force_treeallocate()/forcetree.c/4827
  30 2978 0           Ngblist      4.0880    1710.9295  density()/density.c/690
  30 2979 0              Left      8.1759    1719.1054  density()/density.c/692
  30 2980 0             Right      8.1759    1727.2813  density()/density.c/693
  30 2981 0    DataIndexTable      7.0175    1734.2989  density()/density.c/738
  30 2982 0      DataNodeList     18.7134    1753.0123  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.333.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.399.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.84 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=180281
After=200625
NTopleaves= 175547  NTopnodes=200625 (space for 244687)
gravity work-load balance=1.00058   memory-balance=1.00058   SPH work-load balance=0
iter=0 exchange of 0272938495 particles (ret=0)
domain decomposition done. (took 3.98578 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.017 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1202.96 MB)
Tree construction.

Start linking particles (presently allocated=1756.27 MB)
links on local processor done (took 7.72585 sec).
Marked=0060575746 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1857.87 MB) 
have done 0000999945 cross links (processed 0060575746, took 4.7739 sec)
have done 0000435959 cross links (processed 0047109957, took 4.53124 sec)
have done 0000305772 cross links (processed 0039475419, took 4.40582 sec)
have done 0000204831 cross links (processed 0028211820, took 4.17215 sec)
have done 0000137153 cross links (processed 0018877655, took 3.91895 sec)
have done 0000089230 cross links (processed 0011566988, took 3.12587 sec)
have done 0000059466 cross links (processed 0007187777, took 2.86429 sec)
have done 0000039563 cross links (processed 0005720545, took 2.51162 sec)
have done 0000025072 cross links (processed 0003048806, took 2.47069 sec)
have done 0000012217 cross links (processed 0000489114, took 0.156726 sec)
have done 0000005229 cross links (processed 0000154475, took 0.235102 sec)
have done 0000002833 cross links (processed 0000068774, took 0.125839 sec)
have done 0000001935 cross links (processed 0000098667, took 0.200699 sec)
have done 0000001385 cross links (processed 0000092148, took 0.199999 sec)
have done 0000000913 cross links (processed 0000075204, took 0.192705 sec)
have done 0000000594 cross links (processed 0000021239, took 0.05388 sec)
have done 0000000585 cross links (processed 0000068639, took 0.192532 sec)
have done 0000000230 cross links (processed 0000005495, took 0.0494189 sec)
have done 0000000362 cross links (processed 0000015226, took 0.0537009 sec)
have done 0000000502 cross links (processed 0000067528, took 0.19164 sec)
have done 0000000155 cross links (processed 0000004370, took 0.050632 sec)
have done 0000000048 cross links (processed 0000000763, took 0.044888 sec)
have done 0000000015 cross links (processed 0000000234, took 0.0445671 sec)
have done 0000000003 cross links (processed 0000000055, took 0.0445819 sec)
have done 0000000001 cross links (processed 0000000007, took 0.0445662 sec)
have done 0000000001 cross links (processed 0000000003, took 0.044637 sec)
have done 0000000000 cross links (processed 0000000004, took 0.044894 sec)
Local groups found.

group finding took = 42.6069 sec
Start finding nearest dm-particle (presently allocated=1756.27 MB)
still finding nearest... (presently allocated=1845.73 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.109972 sec
compiling local group data and catalogue took = 0.619777 sec

Total number of groups with at least 32 particles: 200110
Largest group has 11284559 particles.
Total number of particles in groups: 0139057027

group properties are now allocated.. (presently allocated=1269.5 MB)
computation of group properties took = 0.072377 sec
start global sorting of group catalogues number 20
LargestGroup = 8882.857358; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.051816 sec
Group catalogues globally sorted. took = 0.794365 sec
starting saving of group catalogue number 20
data//groups_020_z000p352
Group catalogues number 20 saved. took = 3.46927 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.724934 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.270528 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.715465 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0190929194 particles. (took 19.7599 sec)
ngb iteration 2: need to repeat for 0148352673 particles. (took 9.68925 sec)
ngb iteration 3: need to repeat for 0129426709 particles. (took 6.96972 sec)
ngb iteration 4: need to repeat for 0117431856 particles. (took 5.714 sec)
ngb iteration 5: need to repeat for 0104880119 particles. (took 5.03432 sec)
ngb iteration 6: need to repeat for 0087572750 particles. (took 4.48969 sec)
ngb iteration 7: need to repeat for 0066286804 particles. (took 3.82385 sec)
ngb iteration 8: need to repeat for 0045586126 particles. (took 3.07221 sec)
ngb iteration 9: need to repeat for 0029087173 particles. (took 2.27034 sec)
ngb iteration 10: need to repeat for 0017631994 particles. (took 1.57359 sec)
ngb iteration 11: need to repeat for 0010353732 particles. (took 1.01879 sec)
ngb iteration 12: need to repeat for 0005980262 particles. (took 0.619931 sec)
ngb iteration 13: need to repeat for 0003435161 particles. (took 0.383564 sec)
ngb iteration 14: need to repeat for 0001876120 particles. (took 0.250677 sec)
ngb iteration 15: need to repeat for 0000892092 particles. (took 0.167204 sec)
ngb iteration 16: need to repeat for 0000455281 particles. (took 0.104037 sec)
ngb iteration 17: need to repeat for 0000242175 particles. (took 0.076416 sec)
ngb iteration 18: need to repeat for 0000131968 particles. (took 0.062088 sec)
ngb iteration 19: need to repeat for 0000071483 particles. (took 0.0540171 sec)
ngb iteration 20: need to repeat for 0000037971 particles. (took 0.0485301 sec)
ngb iteration 21: need to repeat for 0000019620 particles. (took 0.0451479 sec)
ngb iteration 22: need to repeat for 0000009689 particles. (took 0.0430949 sec)
ngb iteration 23: need to repeat for 0000004603 particles. (took 0.0417562 sec)
ngb iteration 24: need to repeat for 0000002111 particles. (took 0.0409238 sec)
ngb iteration 25: need to repeat for 0000000961 particles. (took 0.0404608 sec)
ngb iteration 26: need to repeat for 0000000415 particles. (took 0.0409079 sec)
ngb iteration 27: need to repeat for 0000000167 particles. (took 0.0403678 sec)
ngb iteration 28: need to repeat for 0000000076 particles. (took 0.0403101 sec)
ngb iteration 29: need to repeat for 0000000030 particles. (took 0.0402658 sec)
ngb iteration 30: need to repeat for 0000000011 particles. (took 0.040452 sec)
ngb iteration 31: need to repeat for 0000000005 particles. (took 0.0401511 sec)
ngb iteration 32: need to repeat for 0000000002 particles. (took 0.040163 sec)
ngb iteration 33: need to repeat for 0000000001 particles. (took 0.0403678 sec)
ngb iteration 34: need to repeat for 0000000001 particles. (took 0.040303 sec)
final operations ... 
density and smoothing length for species 1 took 66.1228 sec
Tree construction.
tree build took 0.718021 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.273917 sec
Tree construction.
tree build took 0.727828 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.271029 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.175284 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 2.0175 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.713749 sec
density() of species 1 took 0 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.172902 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 2.03062 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.173932 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 2.06368 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.960943 sec
saving densities took 3.43714 sec

Number of FOF halos treated with collective SubFind code = 5
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 200105 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 19176 - 62316259 

subfind_exchange()() took 1.76845 sec

collectively doing halo 1, num=20
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2520.84 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2580.39 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 2580.39 Mbyte (on task=0), Smallest = 1353.35 Mbyte, Average = 1388 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9492    1202.9632  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5257    1227.4890  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8762    1268.3652  fof_fof()/fof.c/337
   0 2975 0             Group      1.1341    1269.4993  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1251.3368    2520.8361  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    2533.0954  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    2561.7018  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    2562.6469  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    2563.5804  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    2564.5138  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    2565.4472  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    2566.3845  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    2567.3218  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    2580.3895  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=132913
After=168457
NTopleaves= 147400  NTopnodes=168457 (space for 244687)
gravity work-load balance=1.00054   memory-balance=1.00054   SPH work-load balance=0
iter=0 exchange of 0011233849 particles (ret=0)
domain decomposition done. (took 1.00104 sec)
Freed 3.48953 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 3027.94 Mbyte (on task=0), Smallest = 1800.9 Mbyte, Average = 1835.55 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9492    1202.9632  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5257    1227.4890  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8762    1268.3652  fof_fof()/fof.c/337
   0 2975 0             Group      1.1341    1269.4993  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1251.3368    2520.8361  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.3540    2529.3151  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5623    2529.8774  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    255.7167    2785.5940  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base    213.0972    2998.6913  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9458    3013.6371  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    3027.9403  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.45434 sec  (presently allocated=3027.94 MB)
force_treebuild() took 2.04685 sec (presently allocated=3027.94 MB)
Start find_linkngb (44035 particles on task=0)
find linkngb iteration 1: need to repeat for 0010782587 particles. (took 0.882511 sec)
find linkngb iteration 2: need to repeat for 0009900177 particles. (took 0.617989 sec)
find linkngb iteration 3: need to repeat for 0009443080 particles. (took 0.429635 sec)
find linkngb iteration 4: need to repeat for 0008268659 particles. (took 0.475607 sec)
find linkngb iteration 5: need to repeat for 0006867793 particles. (took 0.405186 sec)
find linkngb iteration 6: need to repeat for 0004971323 particles. (took 0.334198 sec)
find linkngb iteration 7: need to repeat for 0003123658 particles. (took 0.236907 sec)
find linkngb iteration 8: need to repeat for 0001775243 particles. (took 0.151648 sec)
find linkngb iteration 9: need to repeat for 0000950380 particles. (took 0.092473 sec)
find linkngb iteration 10: need to repeat for 0000492018 particles. (took 0.0558021 sec)
find linkngb iteration 11: need to repeat for 0000250353 particles. (took 0.034524 sec)
find linkngb iteration 12: need to repeat for 0000052820 particles. (took 0.0227361 sec)
find linkngb iteration 13: need to repeat for 0000001049 particles. (took 0.0107398 sec)
find linkngb iteration 14: need to repeat for 0000000315 particles. (took 0.000825167 sec)
find linkngb iteration 15: need to repeat for 0000000115 particles. (took 0.000540018 sec)
find linkngb iteration 16: need to repeat for 0000000032 particles. (took 0.000470877 sec)
find linkngb iteration 17: need to repeat for 0000000002 particles. (took 0.000431061 sec)
find_linkngb() took 3.75361 sec
Start finding nearest two (44035 particles on task=0)
find_nearesttwo() took 0.696226 sec (presently allocated=3031.3 MB)
parallel sort of densities done. took 0.0751591 sec
building distributed linked list. (presently allocated 3030.86 MB)
identification of primary candidates took 285.295 sec
adding background as candidate took 0.158915 sec
establishing of rank order took 88.1071 sec  (p=11284559, grouplen=11284559) presently allocated 3030.86 MB

total number of subhalo candidates=53511

number of subhalo candidates that can be done independently=46968.
(Largest size is 3980, finding them took 0.014709 sec)
particles are marked (took 64.7742)
independent subhalos are assembled on individual CPUs for unbinding (0.194667 sec, (presently allocated=3030.86 MB)
unbinding of independent ones took 0.111047 sec
particles have returned to their original processor (0.255528 sec, presently allocated 3030.86 MB)

number of subhalo candidates that can be done independently=6015.
(Largest size is 35829, finding them took 1.08198 sec)
particles are marked (took 43.6446)
independent subhalos are assembled on individual CPUs for unbinding (0.18125 sec, (presently allocated=3030.86 MB)
unbinding of independent ones took 0.838124 sec
particles have returned to their original processor (0.241642 sec, presently allocated 3030.86 MB)

number of subhalo candidates that can be done independently=487.
(Largest size is 92462, finding them took 1.06571 sec)
particles are marked (took 34.377)
independent subhalos are assembled on individual CPUs for unbinding (0.172304 sec, (presently allocated=3030.86 MB)
unbinding of independent ones took 2.38463 sec
particles have returned to their original processor (0.23994 sec, presently allocated 3030.86 MB)

number of subhalo candidates that can be done independently=36.
(Largest size is 1229227, finding them took 0.948944 sec)
too big candidates, I do the rest collectively

collective unbinding of nr=0 (41) of length=1746 ... maximum alloacted 3031.03 MB
took 1.62826 sec
collective unbinding of nr=1 (41) of length=6553 ... maximum alloacted 3031.03 MB
took 1.23227 sec
collective unbinding of nr=2 (41) of length=753 ... maximum alloacted 3031.03 MB
took 1.13012 sec
collective unbinding of nr=3 (41) of length=164994 ... maximum alloacted 3031.03 MB
took 5.97877 sec
collective unbinding of nr=4 (41) of length=3268 ... maximum alloacted 3031.03 MB
took 1.02596 sec
collective unbinding of nr=5 (41) of length=563 ... maximum alloacted 3031.03 MB
took 1.88514 sec
collective unbinding of nr=6 (41) of length=1366 ... maximum alloacted 3031.03 MB
took 2.40037 sec
collective unbinding of nr=7 (41) of length=5434 ... maximum alloacted 3031.03 MB
took 1.73773 sec
collective unbinding of nr=8 (41) of length=533 ... maximum alloacted 3031.03 MB
took 1.90615 sec
collective unbinding of nr=9 (41) of length=2638 ... maximum alloacted 3031.03 MB
took 1.82442 sec
collective unbinding of nr=10 (41) of length=122804 ... maximum alloacted 3031.03 MB
took 3.05464 sec
collective unbinding of nr=11 (41) of length=419 ... maximum alloacted 3031.03 MB
took 1.40812 sec
collective unbinding of nr=12 (41) of length=2299 ... maximum alloacted 3031.03 MB
took 1.04495 sec
collective unbinding of nr=13 (41) of length=675 ... maximum alloacted 3031.03 MB
took 0.954079 sec
collective unbinding of nr=14 (41) of length=2319 ... maximum alloacted 3031.03 MB
took 1.31042 sec
collective unbinding of nr=15 (41) of length=8071 ... maximum alloacted 3031.03 MB
took 2.11678 sec
collective unbinding of nr=16 (41) of length=1229227 ... maximum alloacted 3031.03 MB
took 19.7571 sec
collective unbinding of nr=17 (41) of length=3005 ... maximum alloacted 3031.03 MB
took 2.00231 sec
collective unbinding of nr=18 (41) of length=702 ... maximum alloacted 3031.03 MB
took 1.4209 sec
collective unbinding of nr=19 (41) of length=33394 ... maximum alloacted 3031.03 MB
took 1.59013 sec
collective unbinding of nr=20 (41) of length=6642 ... maximum alloacted 3031.03 MB
took 3.51067 sec
collective unbinding of nr=21 (41) of length=507 ... maximum alloacted 3031.03 MB
took 1.90419 sec
collective unbinding of nr=22 (41) of length=3290 ... maximum alloacted 3031.03 MB
took 2.92909 sec
collective unbinding of nr=23 (41) of length=1401 ... maximum alloacted 3031.03 MB
took 2.57741 sec
collective unbinding of nr=24 (41) of length=5049 ... maximum alloacted 3031.03 MB
took 1.05171 sec
collective unbinding of nr=25 (41) of length=10157 ... maximum alloacted 3031.03 MB
took 1.30349 sec
collective unbinding of nr=26 (41) of length=919 ... maximum alloacted 3031.03 MB
took 2.2331 sec
collective unbinding of nr=27 (41) of length=53947 ... maximum alloacted 3031.03 MB
took 2.55648 sec
collective unbinding of nr=28 (41) of length=8628 ... maximum alloacted 3031.03 MB
took 3.70479 sec
collective unbinding of nr=29 (41) of length=1785 ... maximum alloacted 3031.03 MB
took 2.86334 sec
collective unbinding of nr=30 (41) of length=1348 ... maximum alloacted 3031.03 MB
took 2.24358 sec
collective unbinding of nr=31 (41) of length=1081 ... maximum alloacted 3031.03 MB
took 2.83622 sec
collective unbinding of nr=32 (41) of length=2458 ... maximum alloacted 3031.03 MB
took 1.16245 sec
collective unbinding of nr=33 (41) of length=5357 ... maximum alloacted 3031.03 MB
took 2.44995 sec
collective unbinding of nr=34 (41) of length=69084 ... maximum alloacted 3031.03 MB
took 2.68537 sec
collective unbinding of nr=35 (41) of length=4663 ... maximum alloacted 3031.03 MB
took 3.08959 sec
collective unbinding of nr=36 (41) of length=1094 ... maximum alloacted 3031.03 MB
took 1.29983 sec
collective unbinding of nr=37 (41) of length=1086 ... maximum alloacted 3031.03 MB
took 0.967628 sec
collective unbinding of nr=38 (41) of length=3341 ... maximum alloacted 3031.03 MB
took 1.1886 sec
collective unbinding of nr=39 (41) of length=1706 ... maximum alloacted 3031.03 MB
took 1.79421 sec
collective unbinding of nr=40 (41) of length=11284559 ... maximum alloacted 3031.03 MB
took 199.682 sec

the collective unbinding of remaining halos took 322.958 sec

found 3423 bound substructures in FoF group of length 11284559
determination of parent subhalo took 0.0481091 sec (presently allocated 3031.03 MB)
determining substructure properties took 231.499 sec (presently allocated 3031.03 MB)

collectively doing halo 2, num=20
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2520.84 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2580.39 MB)
Before=132177
After=166297
NTopleaves= 145510  NTopnodes=166297 (space for 244687)
gravity work-load balance=1.00055   memory-balance=1.00055   SPH work-load balance=0
iter=0 exchange of 0009913499 particles (ret=0)
domain decomposition done. (took 1.01004 sec)
Freed 3.58841 MByte in top-level domain structure
coldomain_Decomposition() took 1.45453 sec  (presently allocated=3027.46 MB)
force_treebuild() took 2.05762 sec (presently allocated=3027.46 MB)
Start find_linkngb (38745 particles on task=0)
find linkngb iteration 1: need to repeat for 0009599066 particles. (took 0.782477 sec)
find linkngb iteration 2: need to repeat for 0008881738 particles. (took 0.549114 sec)
find linkngb iteration 3: need to repeat for 0008473443 particles. (took 0.368444 sec)
find linkngb iteration 4: need to repeat for 0007434313 particles. (took 0.416894 sec)
find linkngb iteration 5: need to repeat for 0006178598 particles. (took 0.355224 sec)
find linkngb iteration 6: need to repeat for 0004473199 particles. (took 0.291835 sec)
find linkngb iteration 7: need to repeat for 0002812049 particles. (took 0.207124 sec)
find linkngb iteration 8: need to repeat for 0001599708 particles. (took 0.135863 sec)
find linkngb iteration 9: need to repeat for 0000857265 particles. (took 0.08184 sec)
find linkngb iteration 10: need to repeat for 0000444628 particles. (took 0.050143 sec)
find linkngb iteration 11: need to repeat for 0000225816 particles. (took 0.031415 sec)
find linkngb iteration 12: need to repeat for 0000047884 particles. (took 0.0206599 sec)
find linkngb iteration 13: need to repeat for 0000001042 particles. (took 0.0104659 sec)
find linkngb iteration 14: need to repeat for 0000000299 particles. (took 0.000914097 sec)
find linkngb iteration 15: need to repeat for 0000000110 particles. (took 0.000593901 sec)
find linkngb iteration 16: need to repeat for 0000000041 particles. (took 0.000541925 sec)
find linkngb iteration 17: need to repeat for 0000000013 particles. (took 0.00049901 sec)
find linkngb iteration 18: need to repeat for 0000000002 particles. (took 0.000502825 sec)
find_linkngb() took 3.30568 sec
Start finding nearest two (38745 particles on task=0)
find_nearesttwo() took 0.620123 sec (presently allocated=3030.41 MB)
parallel sort of densities done. took 0.065675 sec
building distributed linked list. (presently allocated 3030.03 MB)
identification of primary candidates took 249.324 sec
adding background as candidate took 0.189411 sec
establishing of rank order took 79.3053 sec  (p=9956738, grouplen=9956738) presently allocated 3030.03 MB

total number of subhalo candidates=47446

number of subhalo candidates that can be done independently=41385.
(Largest size is 7262, finding them took 0.0128641 sec)
particles are marked (took 57.2829)
independent subhalos are assembled on individual CPUs for unbinding (0.189823 sec, (presently allocated=3030.03 MB)
unbinding of independent ones took 0.150758 sec
particles have returned to their original processor (0.265175 sec, presently allocated 3030.03 MB)

number of subhalo candidates that can be done independently=5531.
(Largest size is 14891, finding them took 1.08077 sec)
particles are marked (took 37.8511)
independent subhalos are assembled on individual CPUs for unbinding (0.177364 sec, (presently allocated=3030.03 MB)
unbinding of independent ones took 0.405107 sec
particles have returned to their original processor (0.238996 sec, presently allocated 3030.03 MB)

number of subhalo candidates that can be done independently=484.
(Largest size is 114474, finding them took 1.07326 sec)
particles are marked (took 31.9512)
independent subhalos are assembled on individual CPUs for unbinding (0.173894 sec, (presently allocated=3030.03 MB)
unbinding of independent ones took 3.61533 sec
particles have returned to their original processor (0.242325 sec, presently allocated 3030.03 MB)

number of subhalo candidates that can be done independently=37.
(Largest size is 263771, finding them took 0.945109 sec)
particles are marked (took 28.3981)
independent subhalos are assembled on individual CPUs for unbinding (0.176319 sec, (presently allocated=3030.03 MB)
unbinding of independent ones took 5.0347 sec
particles have returned to their original processor (0.252998 sec, presently allocated 3030.03 MB)

number of subhalo candidates that can be done independently=5.
(Largest size is 263771, finding them took 0.56724 sec)
particles are marked (took 22.5778)
independent subhalos are assembled on individual CPUs for unbinding (0.153188 sec, (presently allocated=3030.03 MB)
unbinding of independent ones took 1.16785 sec
particles have returned to their original processor (0.219087 sec, presently allocated 3030.03 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 263771, finding them took 0.567812 sec)
particles are marked (took 22.278)
independent subhalos are assembled on individual CPUs for unbinding (0.156958 sec, (presently allocated=3030.03 MB)
unbinding of independent ones took 1.5475 sec
particles have returned to their original processor (0.226952 sec, presently allocated 3030.03 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 263771, finding them took 0.492962 sec)
too few, I do the rest of 3 collectively

collective unbinding of nr=0 (3) of length=263771 ... maximum alloacted 3030.17 MB
took 5.44873 sec
collective unbinding of nr=1 (3) of length=201093 ... maximum alloacted 3030.17 MB
took 4.65992 sec
collective unbinding of nr=2 (3) of length=9956738 ... maximum alloacted 3030.17 MB
took 168.695 sec

the collective unbinding of remaining halos took 199.611 sec

found 3221 bound substructures in FoF group of length 9956738
determination of parent subhalo took 0.0536439 sec (presently allocated 3030.17 MB)
determining substructure properties took 202.325 sec (presently allocated 3030.17 MB)

collectively doing halo 3, num=20
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2520.84 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2580.39 MB)
Before=136089
After=165297
NTopleaves= 144635  NTopnodes=165297 (space for 244687)
gravity work-load balance=1.00051   memory-balance=1.00051   SPH work-load balance=0
iter=0 exchange of 0006942400 particles (ret=0)
domain decomposition done. (took 0.966758 sec)
Freed 3.63419 MByte in top-level domain structure
coldomain_Decomposition() took 1.41047 sec  (presently allocated=3027.23 MB)
force_treebuild() took 2.02995 sec (presently allocated=3027.23 MB)
Start find_linkngb (27238 particles on task=0)
find linkngb iteration 1: need to repeat for 0006852652 particles. (took 0.536133 sec)
find linkngb iteration 2: need to repeat for 0006506423 particles. (took 0.366792 sec)
find linkngb iteration 3: need to repeat for 0006214421 particles. (took 0.249223 sec)
find linkngb iteration 4: need to repeat for 0005487802 particles. (took 0.284195 sec)
find linkngb iteration 5: need to repeat for 0004574522 particles. (took 0.241169 sec)
find linkngb iteration 6: need to repeat for 0003321512 particles. (took 0.1989 sec)
find linkngb iteration 7: need to repeat for 0002091344 particles. (took 0.144008 sec)
find linkngb iteration 8: need to repeat for 0001189412 particles. (took 0.0946851 sec)
find linkngb iteration 9: need to repeat for 0000637276 particles. (took 0.0597219 sec)
find linkngb iteration 10: need to repeat for 0000330092 particles. (took 0.0383 sec)
find linkngb iteration 11: need to repeat for 0000167482 particles. (took 0.0242949 sec)
find linkngb iteration 12: need to repeat for 0000035708 particles. (took 0.0168719 sec)
find linkngb iteration 13: need to repeat for 0000000788 particles. (took 0.00907588 sec)
find linkngb iteration 14: need to repeat for 0000000197 particles. (took 0.000771999 sec)
find linkngb iteration 15: need to repeat for 0000000059 particles. (took 0.000458002 sec)
find linkngb iteration 16: need to repeat for 0000000020 particles. (took 0.000421047 sec)
find linkngb iteration 17: need to repeat for 0000000005 particles. (took 0.000405073 sec)
find linkngb iteration 18: need to repeat for 0000000001 particles. (took 0.000380993 sec)
find_linkngb() took 2.26682 sec
Start finding nearest two (27238 particles on task=0)
find_nearesttwo() took 0.441418 sec (presently allocated=3029.31 MB)
parallel sort of densities done. took 0.0556929 sec
building distributed linked list. (presently allocated 3029.04 MB)
identification of primary candidates took 181.996 sec
adding background as candidate took 0.177275 sec
establishing of rank order took 57.1505 sec  (p=6970385, grouplen=6970385) presently allocated 3029.04 MB

total number of subhalo candidates=31095

number of subhalo candidates that can be done independently=27651.
(Largest size is 2013, finding them took 0.00848413 sec)
particles are marked (took 38.3338)
independent subhalos are assembled on individual CPUs for unbinding (0.172753 sec, (presently allocated=3029.04 MB)
unbinding of independent ones took 0.0480871 sec
particles have returned to their original processor (0.233952 sec, presently allocated 3029.04 MB)

number of subhalo candidates that can be done independently=3189.
(Largest size is 23796, finding them took 1.06346 sec)
particles are marked (took 25.4363)
independent subhalos are assembled on individual CPUs for unbinding (0.170515 sec, (presently allocated=3029.04 MB)
unbinding of independent ones took 1.13547 sec
particles have returned to their original processor (0.231859 sec, presently allocated 3029.04 MB)

number of subhalo candidates that can be done independently=231.
(Largest size is 226201, finding them took 0.941607 sec)
particles are marked (took 19.6473)
independent subhalos are assembled on individual CPUs for unbinding (0.165389 sec, (presently allocated=3029.04 MB)
unbinding of independent ones took 1.83965 sec
particles have returned to their original processor (0.232106 sec, presently allocated 3029.04 MB)

number of subhalo candidates that can be done independently=18.
(Largest size is 468716, finding them took 0.559924 sec)
particles are marked (took 16.6155)
independent subhalos are assembled on individual CPUs for unbinding (0.160697 sec, (presently allocated=3029.04 MB)
unbinding of independent ones took 2.22979 sec
particles have returned to their original processor (0.229464 sec, presently allocated 3029.04 MB)

number of subhalo candidates that can be done independently=2.
(Largest size is 468716, finding them took 0.558378 sec)
particles are marked (took 14.6288)
independent subhalos are assembled on individual CPUs for unbinding (0.153844 sec, (presently allocated=3029.04 MB)
unbinding of independent ones took 0.486453 sec
particles have returned to their original processor (0.218441 sec, presently allocated 3029.04 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 468716, finding them took 0.579583 sec)
too few, I do the rest of 4 collectively

collective unbinding of nr=0 (4) of length=468716 ... maximum alloacted 3029.14 MB
took 10.5269 sec
collective unbinding of nr=1 (4) of length=226201 ... maximum alloacted 3029.14 MB
took 4.84621 sec
collective unbinding of nr=2 (4) of length=341039 ... maximum alloacted 3029.14 MB
took 8.40021 sec
collective unbinding of nr=3 (4) of length=6970385 ... maximum alloacted 3029.14 MB
took 125.528 sec

the collective unbinding of remaining halos took 162.986 sec

found 2536 bound substructures in FoF group of length 6970385
determination of parent subhalo took 0.0413511 sec (presently allocated 3029.14 MB)
determining substructure properties took 151.068 sec (presently allocated 3029.14 MB)

collectively doing halo 4, num=20
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2520.84 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2580.39 MB)
Before=141073
After=166305
NTopleaves= 145517  NTopnodes=166305 (space for 244687)
gravity work-load balance=1.00059   memory-balance=1.00059   SPH work-load balance=0
iter=0 exchange of 0005124389 particles (ret=0)
domain decomposition done. (took 0.939129 sec)
Freed 3.58804 MByte in top-level domain structure
coldomain_Decomposition() took 1.38206 sec  (presently allocated=3027.46 MB)
force_treebuild() took 2.0353 sec (presently allocated=3027.46 MB)
Start find_linkngb (20011 particles on task=0)
find linkngb iteration 1: need to repeat for 0005105280 particles. (took 0.385588 sec)
find linkngb iteration 2: need to repeat for 0004934863 particles. (took 0.260289 sec)
find linkngb iteration 3: need to repeat for 0004722225 particles. (took 0.179447 sec)
find linkngb iteration 4: need to repeat for 0004197830 particles. (took 0.202452 sec)
find linkngb iteration 5: need to repeat for 0003511705 particles. (took 0.173854 sec)
find linkngb iteration 6: need to repeat for 0002553501 particles. (took 0.144826 sec)
find linkngb iteration 7: need to repeat for 0001610635 particles. (took 0.122204 sec)
find linkngb iteration 8: need to repeat for 0000917566 particles. (took 0.077348 sec)
find linkngb iteration 9: need to repeat for 0000492684 particles. (took 0.0461969 sec)
find linkngb iteration 10: need to repeat for 0000255407 particles. (took 0.029676 sec)
find linkngb iteration 11: need to repeat for 0000129972 particles. (took 0.0201359 sec)
find linkngb iteration 12: need to repeat for 0000027755 particles. (took 0.0142961 sec)
find linkngb iteration 13: need to repeat for 0000000628 particles. (took 0.00803089 sec)
find linkngb iteration 14: need to repeat for 0000000172 particles. (took 0.000669003 sec)
find linkngb iteration 15: need to repeat for 0000000057 particles. (took 0.000440121 sec)
find linkngb iteration 16: need to repeat for 0000000018 particles. (took 0.000387907 sec)
find linkngb iteration 17: need to repeat for 0000000004 particles. (took 0.000348091 sec)
find linkngb iteration 18: need to repeat for 0000000001 particles. (took 0.000364065 sec)
find_linkngb() took 1.6675 sec
Start finding nearest two (20011 particles on task=0)
find_nearesttwo() took 0.333485 sec (presently allocated=3028.98 MB)
parallel sort of densities done. took 0.0514119 sec
building distributed linked list. (presently allocated 3028.79 MB)
identification of primary candidates took 136.522 sec
adding background as candidate took 0.156522 sec
establishing of rank order took 42.4492 sec  (p=5147176, grouplen=5147176) presently allocated 3028.79 MB

total number of subhalo candidates=22080

number of subhalo candidates that can be done independently=19781.
(Largest size is 3411, finding them took 0.00603104 sec)
particles are marked (took 27.6193)
independent subhalos are assembled on individual CPUs for unbinding (0.167331 sec, (presently allocated=3028.79 MB)
unbinding of independent ones took 0.068785 sec
particles have returned to their original processor (0.227556 sec, presently allocated 3028.79 MB)

number of subhalo candidates that can be done independently=2140.
(Largest size is 11566, finding them took 1.06324 sec)
particles are marked (took 17.4383)
independent subhalos are assembled on individual CPUs for unbinding (0.16465 sec, (presently allocated=3028.79 MB)
unbinding of independent ones took 0.311064 sec
particles have returned to their original processor (0.226767 sec, presently allocated 3028.79 MB)

number of subhalo candidates that can be done independently=150.
(Largest size is 97193, finding them took 1.1073 sec)
particles are marked (took 16.8133)
independent subhalos are assembled on individual CPUs for unbinding (0.179982 sec, (presently allocated=3028.79 MB)
unbinding of independent ones took 6.56317 sec
particles have returned to their original processor (0.257689 sec, presently allocated 3028.79 MB)

number of subhalo candidates that can be done independently=6.
(Largest size is 171428, finding them took 0.592136 sec)
particles are marked (took 11.5831)
independent subhalos are assembled on individual CPUs for unbinding (0.162482 sec, (presently allocated=3028.79 MB)
unbinding of independent ones took 1.46483 sec
particles have returned to their original processor (0.233058 sec, presently allocated 3028.79 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 517133, finding them took 0.55682 sec)
too few, I do the rest of 3 collectively

collective unbinding of nr=0 (3) of length=517133 ... maximum alloacted 3028.86 MB
took 11.2006 sec
collective unbinding of nr=1 (3) of length=171428 ... maximum alloacted 3028.86 MB
took 4.4212 sec
collective unbinding of nr=2 (3) of length=5147176 ... maximum alloacted 3028.86 MB
took 97.0416 sec

the collective unbinding of remaining halos took 122.394 sec

found 1879 bound substructures in FoF group of length 5147176
determination of parent subhalo took 0.0364931 sec (presently allocated 3028.86 MB)
determining substructure properties took 113.397 sec (presently allocated 3028.86 MB)

collectively doing halo 5, num=20
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2520.84 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2580.39 MB)
Before=146417
After=170041
NTopleaves= 148786  NTopnodes=170041 (space for 244687)
gravity work-load balance=1.0005   memory-balance=1.0005   SPH work-load balance=0
iter=0 exchange of 0003860299 particles (ret=0)
domain decomposition done. (took 0.932989 sec)
Freed 3.41702 MByte in top-level domain structure
coldomain_Decomposition() took 1.37779 sec  (presently allocated=3028.3 MB)
force_treebuild() took 2.02132 sec (presently allocated=3028.3 MB)
Start find_linkngb (15128 particles on task=0)
find linkngb iteration 1: need to repeat for 0003857731 particles. (took 0.285069 sec)
find linkngb iteration 2: need to repeat for 0003765199 particles. (took 0.185656 sec)
find linkngb iteration 3: need to repeat for 0003608064 particles. (took 0.128612 sec)
find linkngb iteration 4: need to repeat for 0003222328 particles. (took 0.147348 sec)
find linkngb iteration 5: need to repeat for 0002698278 particles. (took 0.127803 sec)
find linkngb iteration 6: need to repeat for 0001962266 particles. (took 0.106877 sec)
find linkngb iteration 7: need to repeat for 0001238205 particles. (took 0.0805461 sec)
find linkngb iteration 8: need to repeat for 0000705390 particles. (took 0.0551341 sec)
find linkngb iteration 9: need to repeat for 0000378559 particles. (took 0.036227 sec)
find linkngb iteration 10: need to repeat for 0000195911 particles. (took 0.045274 sec)
find linkngb iteration 11: need to repeat for 0000099184 particles. (took 0.017462 sec)
find linkngb iteration 12: need to repeat for 0000021503 particles. (took 0.0298901 sec)
find linkngb iteration 13: need to repeat for 0000000559 particles. (took 0.00896716 sec)
find linkngb iteration 14: need to repeat for 0000000159 particles. (took 0.000623941 sec)
find linkngb iteration 15: need to repeat for 0000000043 particles. (took 0.000498056 sec)
find linkngb iteration 16: need to repeat for 0000000008 particles. (took 0.000344992 sec)
find linkngb iteration 17: need to repeat for 0000000001 particles. (took 0.000329018 sec)
find_linkngb() took 1.25751 sec
Start finding nearest two (15128 particles on task=0)
find_nearesttwo() took 0.25084 sec (presently allocated=3029.45 MB)
parallel sort of densities done. took 0.048068 sec
building distributed linked list. (presently allocated 3029.3 MB)
identification of primary candidates took 103.361 sec
adding background as candidate took 0.158287 sec
establishing of rank order took 32.925 sec  (p=3874661, grouplen=3874661) presently allocated 3029.3 MB

total number of subhalo candidates=16285

number of subhalo candidates that can be done independently=14538.
(Largest size is 2442, finding them took 0.00455499 sec)
particles are marked (took 20.3183)
independent subhalos are assembled on individual CPUs for unbinding (0.162891 sec, (presently allocated=3029.3 MB)
unbinding of independent ones took 0.0394602 sec
particles have returned to their original processor (0.223496 sec, presently allocated 3029.3 MB)

number of subhalo candidates that can be done independently=1607.
(Largest size is 10657, finding them took 1.05249 sec)
particles are marked (took 13.3594)
independent subhalos are assembled on individual CPUs for unbinding (0.162792 sec, (presently allocated=3029.3 MB)
unbinding of independent ones took 0.264077 sec
particles have returned to their original processor (0.224977 sec, presently allocated 3029.3 MB)

number of subhalo candidates that can be done independently=129.
(Largest size is 157198, finding them took 0.867538 sec)
particles are marked (took 15.9186)
independent subhalos are assembled on individual CPUs for unbinding (0.189132 sec, (presently allocated=3029.3 MB)
unbinding of independent ones took 5.02867 sec
particles have returned to their original processor (0.269948 sec, presently allocated 3029.3 MB)

number of subhalo candidates that can be done independently=10.
(Largest size is 80725, finding them took 0.553491 sec)
particles are marked (took 10.7074)
independent subhalos are assembled on individual CPUs for unbinding (0.168194 sec, (presently allocated=3029.3 MB)
unbinding of independent ones took 1.70245 sec
particles have returned to their original processor (0.243662 sec, presently allocated 3029.3 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 3874661, finding them took 0.55229 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=3874661 ... maximum alloacted 3029.36 MB
took 65.9532 sec

the collective unbinding of remaining halos took 73.1261 sec

found 1472 bound substructures in FoF group of length 3874661
determination of parent subhalo took 0.0385201 sec (presently allocated 3029.36 MB)
determining substructure properties took 84.9504 sec (presently allocated 3029.36 MB)
processing of collective halos took 3656.62 sec
sort of local particles()() took 0.617864 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 644.601 sec

Task 1: testing particles ...
Task 235: testing particles ...
Task 237: testing particles ...
Task 255: testing particles ...
Task 196: testing particles ...
Task 229: testing particles ...
Task 157: testing particles ...
Task 223: testing particles ...
Task 240: testing particles ...
Task 217: testing particles ...
Task 184: testing particles ...
Task 254: testing particles ...
Task 214: testing particles ...
Task 155: testing particles ...
Task 204: testing particles ...
Task 251: testing particles ...
Task 160: testing particles ...
Task 188: testing particles ...
Task 179: testing particles ...
Task 231: testing particles ...
Task 247: testing particles ...
Task 145: testing particles ...
Task 132: testing particles ...
Task 219: testing particles ...
Task 250: testing particles ...
Task 213: testing particles ...
Task 2: testing particles ...
Task 144: testing particles ...
Task 168: testing particles ...
Task 233: testing particles ...
Task 3: testing particles ...
Task 158: testing particles ...
Task 167: testing particles ...
Task 180: testing particles ...
Task 175: testing particles ...
Task 4: testing particles ...
Task 141: testing particles ...
Task 138: testing particles ...
Task 236: testing particles ...
Task 253: testing particles ...
Task 129: testing particles ...
Task 159: testing particles ...
Task 117: testing particles ...
Task 153: testing particles ...
Task 197: testing particles ...
Task 124: testing particles ...
Task 148: testing particles ...
Task 134: testing particles ...
Task 143: testing particles ...
Task 126: testing particles ...
Task 195: testing particles ...
Task 244: testing particles ...
Task 183: testing particles ...
Task 205: testing particles ...
Task 241: testing particles ...
Task 238: testing particles ...
Task 200: testing particles ...
Task 246: testing particles ...
Task 104: testing particles ...
Task 121: testing particles ...
Task 162: testing particles ...
Task 186: testing particles ...
Task 98: testing particles ...
Task 83: testing particles ...
Task 92: testing particles ...
Task 243: testing particles ...
Task 232: testing particles ...
Task 203: testing particles ...
Task 198: testing particles ...
Task 206: testing particles ...
Task 181: testing particles ...
Task 252: testing particles ...
Task 208: testing particles ...
Task 185: testing particles ...
Task 177: testing particles ...
Task 226: testing particles ...
Task 249: testing particles ...
Task 147: testing particles ...
Task 110: testing particles ...
Task 142: testing particles ...
Task 225: testing particles ...
Task 172: testing particles ...
Task 215: testing particles ...
Task 135: testing particles ...
Task 227: testing particles ...
Task 190: testing particles ...
Task 165: testing particles ...
Task 228: testing particles ...
Task 65: testing particles ...
Task 201: testing particles ...
Task 115: testing particles ...
Task 100: testing particles ...
Task 189: testing particles ...
Task 221: testing particles ...
Task 105: testing particles ...
Task 211: testing particles ...
Task 171: testing particles ...
Task 170: testing particles ...
Task 139: testing particles ...
Task 174: testing particles ...
Task 71: testing particles ...
Task 210: testing particles ...
Task 218: testing particles ...
Task 111: testing particles ...
Task 169: testing particles ...
Task 234: testing particles ...
Task 187: testing particles ...
Task 140: testing particles ...
Task 176: testing particles ...
unsorting of local particles()() took 0.57279 sec
Task 0: testing particles ...
Task 72: testing particles ...
Task 194: testing particles ...
Task 97: testing particles ...
Task 149: testing particles ...
Task 207: testing particles ...
Task 131: testing particles ...
Task 73: testing particles ...
Task 230: testing particles ...
Task 99: testing particles ...
Task 93: testing particles ...
Task 101: testing particles ...
Task 166: testing particles ...
Task 192: testing particles ...
Task 137: testing particles ...
Task 88: testing particles ...
Task 84: testing particles ...
Task 94: testing particles ...
Task 193: testing particles ...
Task 150: testing particles ...
Task 163: testing particles ...
Task 156: testing particles ...
Task 85: testing particles ...
Task 58: testing particles ...
Task 242: testing particles ...
Task 209: testing particles ...
Task 91: testing particles ...
Task 220: testing particles ...
Task 123: testing particles ...
Task 107: testing particles ...
Task 103: testing particles ...
Task 119: testing particles ...
Task 222: testing particles ...
Task 151: testing particles ...
Task 80: testing particles ...
Task 239: testing particles ...
Task 191: testing particles ...
Task 182: testing particles ...
Task 245: testing particles ...
Task 248: testing particles ...
Task 216: testing particles ...
Task 154: testing particles ...
Task 152: testing particles ...
Task 89: testing particles ...
Task 114: testing particles ...
Task 130: testing particles ...
Task 118: testing particles ...
Task 96: testing particles ...
Task 127: testing particles ...
Task 76: testing particles ...
Task 47: testing particles ...
Task 109: testing particles ...
Task 146: testing particles ...
Task 66: testing particles ...
Task 212: testing particles ...
Task 125: testing particles ...
Task 199: testing particles ...
Task 173: testing particles ...
Task 136: testing particles ...
Task 202: testing particles ...
Task 60: testing particles ...
Task 120: testing particles ...
Task 128: testing particles ...
Task 133: testing particles ...
Task 90: testing particles ...
Task 75: testing particles ...
Task 113: testing particles ...
Task 108: testing particles ...
Task 224: testing particles ...
Task 122: testing particles ...
Task 161: testing particles ...
Task 178: testing particles ...
Task 102: testing particles ...
Task 112: testing particles ...
Task 68: testing particles ...
Task 56: testing particles ...
Task 77: testing particles ...
Task 49: testing particles ...
Task 164: testing particles ...
Task 63: testing particles ...
Task 70: testing particles ...
Task 106: testing particles ...
Task 46: testing particles ...
Task 59: testing particles ...
Task 116: testing particles ...
Task 81: testing particles ...
Task 67: testing particles ...
Task 86: testing particles ...
Task 48: testing particles ...
Task 87: testing particles ...
Task 55: testing particles ...
Task 53: testing particles ...
Task 64: testing particles ...
Task 38: testing particles ...
Task 57: testing particles ...
Task 79: testing particles ...
Task 37: testing particles ...
Task 82: testing particles ...
Task 95: testing particles ...
Task 44: testing particles ...
Task 51: testing particles ...
Task 61: testing particles ...
Task 69: testing particles ...
Task 62: testing particles ...
Task 50: testing particles ...
Task 78: testing particles ...
Task 54: testing particles ...
Task 52: testing particles ...
Task 24: testing particles ...
Task 74: testing particles ...
Task 40: testing particles ...
Task 34: testing particles ...
Task 42: testing particles ...
Task 29: testing particles ...
Task 27: testing particles ...
Task 45: testing particles ...
Task 41: testing particles ...
Task 43: testing particles ...
Task 32: testing particles ...
Task 22: testing particles ...
Task 35: testing particles ...
Task 33: testing particles ...
Task 36: testing particles ...
Task 21: testing particles ...
Task 31: testing particles ...
Task 26: testing particles ...
Task 30: testing particles ...
Task 39: testing particles ...
Task 23: testing particles ...
Task 25: testing particles ...
Task 28: testing particles ...
Task 20: testing particles ...
Task 15: testing particles ...
Task 19: testing particles ...
Task 13: testing particles ...
Task 16: testing particles ...
Task 18: testing particles ...
Task 17: testing particles ...
Task 14: testing particles ...
Task 12: testing particles ...
Task 11: testing particles ...
Task 10: testing particles ...
Task 9: testing particles ...
Task 7: testing particles ...
Task 8: testing particles ...
Task 6: testing particles ...
Task 5: testing particles ...
subfind_exchange() (for return to original CPU)  took 3.6361 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2520.84 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2580.39 MB)
Before=186249
After=205081
NTopleaves= 179446  NTopnodes=205081 (space for 244687)
gravity work-load balance=1.00032   memory-balance=1.00032   SPH work-load balance=0
iter=0 exchange of 0272985783 particles (ret=0)
domain decomposition done. (took 4.29785 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.81302 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000164272 particles. (took 0.0246651 sec)
SO iteration 2: need to repeat for 0000164272 particles. (took 0.0235372 sec)
SO iteration 3: need to repeat for 0000164272 particles. (took 0.023586 sec)
SO iteration 4: need to repeat for 0000164272 particles. (took 0.023458 sec)
SO iteration 5: need to repeat for 0000164272 particles. (took 0.0239339 sec)
SO iteration 6: need to repeat for 0000164272 particles. (took 0.024071 sec)
SO iteration 7: need to repeat for 0000164272 particles. (took 0.0236452 sec)
SO iteration 8: need to repeat for 0000164272 particles. (took 0.0234799 sec)
SO iteration 9: need to repeat for 0000164272 particles. (took 0.0233328 sec)
SO iteration 10: need to repeat for 0000164272 particles. (took 0.0232129 sec)
SO iteration 11: need to repeat for 0000164272 particles. (took 0.023258 sec)
SO iteration 12: need to repeat for 0000164272 particles. (took 0.0231829 sec)
SO iteration 13: need to repeat for 0000164272 particles. (took 0.023659 sec)
SO iteration 14: need to repeat for 0000164272 particles. (took 0.0234561 sec)
SO iteration 15: need to repeat for 0000163768 particles. (took 0.0235429 sec)
SO iteration 16: need to repeat for 0000000569 particles. (took 0.0228229 sec)
SO iteration 17: need to repeat for 0000000047 particles. (took 0.00103307 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000675917 sec)
SO iteration 1: need to repeat for 0000164272 particles. (took 0.0242012 sec)
SO iteration 2: need to repeat for 0000164272 particles. (took 0.021323 sec)
SO iteration 3: need to repeat for 0000164272 particles. (took 0.02215 sec)
SO iteration 4: need to repeat for 0000164272 particles. (took 0.021549 sec)
SO iteration 5: need to repeat for 0000164272 particles. (took 0.021688 sec)
SO iteration 6: need to repeat for 0000164272 particles. (took 0.02142 sec)
SO iteration 7: need to repeat for 0000164272 particles. (took 0.0214989 sec)
SO iteration 8: need to repeat for 0000164272 particles. (took 0.0218241 sec)
SO iteration 9: need to repeat for 0000164272 particles. (took 0.0218279 sec)
SO iteration 10: need to repeat for 0000164272 particles. (took 0.0220551 sec)
SO iteration 11: need to repeat for 0000164272 particles. (took 0.022938 sec)
SO iteration 12: need to repeat for 0000164272 particles. (took 0.0224159 sec)
SO iteration 13: need to repeat for 0000164272 particles. (took 0.0218098 sec)
SO iteration 14: need to repeat for 0000164272 particles. (took 0.021553 sec)
SO iteration 15: need to repeat for 0000164159 particles. (took 0.0397201 sec)
SO iteration 16: need to repeat for 0000023471 particles. (took 0.0410841 sec)
SO iteration 17: need to repeat for 0000000358 particles. (took 0.0115771 sec)
SO iteration 18: need to repeat for 0000000041 particles. (took 0.00199914 sec)
SO iteration 1: need to repeat for 0000164272 particles. (took 0.0318949 sec)
SO iteration 2: need to repeat for 0000164272 particles. (took 0.0279481 sec)
SO iteration 3: need to repeat for 0000164272 particles. (took 0.019362 sec)
SO iteration 4: need to repeat for 0000164272 particles. (took 0.0202711 sec)
SO iteration 5: need to repeat for 0000164272 particles. (took 0.0196159 sec)
SO iteration 6: need to repeat for 0000164272 particles. (took 0.0197289 sec)
SO iteration 7: need to repeat for 0000164272 particles. (took 0.0199101 sec)
SO iteration 8: need to repeat for 0000164272 particles. (took 0.0199389 sec)
SO iteration 9: need to repeat for 0000164272 particles. (took 0.019994 sec)
SO iteration 10: need to repeat for 0000164272 particles. (took 0.0197229 sec)
SO iteration 11: need to repeat for 0000164272 particles. (took 0.0196488 sec)
SO iteration 12: need to repeat for 0000164272 particles. (took 0.019644 sec)
SO iteration 13: need to repeat for 0000164272 particles. (took 0.0198221 sec)
SO iteration 14: need to repeat for 0000164272 particles. (took 0.019671 sec)
SO iteration 15: need to repeat for 0000164263 particles. (took 0.0198889 sec)
SO iteration 16: need to repeat for 0000164243 particles. (took 0.020128 sec)
SO iteration 17: need to repeat for 0000039482 particles. (took 0.0201309 sec)
SO iteration 18: need to repeat for 0000000761 particles. (took 0.00935507 sec)
SO iteration 19: need to repeat for 0000000070 particles. (took 0.000947952 sec)
SO iteration 1: need to repeat for 0000164272 particles. (took 0.0235319 sec)
SO iteration 2: need to repeat for 0000164272 particles. (took 0.0209351 sec)
SO iteration 3: need to repeat for 0000164272 particles. (took 0.0220141 sec)
SO iteration 4: need to repeat for 0000164272 particles. (took 0.0239258 sec)
SO iteration 5: need to repeat for 0000164272 particles. (took 0.022429 sec)
SO iteration 6: need to repeat for 0000164272 particles. (took 0.024405 sec)
SO iteration 7: need to repeat for 0000164272 particles. (took 0.0223241 sec)
SO iteration 8: need to repeat for 0000164272 particles. (took 0.0223 sec)
SO iteration 9: need to repeat for 0000164272 particles. (took 0.0222192 sec)
SO iteration 10: need to repeat for 0000164272 particles. (took 0.0222831 sec)
SO iteration 11: need to repeat for 0000164272 particles. (took 0.0221698 sec)
SO iteration 12: need to repeat for 0000164272 particles. (took 0.0223961 sec)
SO iteration 13: need to repeat for 0000164272 particles. (took 0.0223029 sec)
SO iteration 14: need to repeat for 0000164272 particles. (took 0.0223269 sec)
SO iteration 15: need to repeat for 0000163930 particles. (took 0.022265 sec)
SO iteration 16: need to repeat for 0000001302 particles. (took 0.0220518 sec)
SO iteration 17: need to repeat for 0000000085 particles. (took 0.00131512 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.00068903 sec)
SO iteration 1: need to repeat for 0000164272 particles. (took 0.0235629 sec)
SO iteration 2: need to repeat for 0000164272 particles. (took 0.020896 sec)
SO iteration 3: need to repeat for 0000164272 particles. (took 0.0220289 sec)
SO iteration 4: need to repeat for 0000164272 particles. (took 0.021843 sec)
SO iteration 5: need to repeat for 0000164272 particles. (took 0.0218329 sec)
SO iteration 6: need to repeat for 0000164272 particles. (took 0.0217731 sec)
SO iteration 7: need to repeat for 0000164272 particles. (took 0.0217991 sec)
SO iteration 8: need to repeat for 0000164272 particles. (took 0.021713 sec)
SO iteration 9: need to repeat for 0000164272 particles. (took 0.022274 sec)
SO iteration 10: need to repeat for 0000164272 particles. (took 0.0222058 sec)
SO iteration 11: need to repeat for 0000164272 particles. (took 0.0217869 sec)
SO iteration 12: need to repeat for 0000164272 particles. (took 0.021862 sec)
SO iteration 13: need to repeat for 0000164272 particles. (took 0.021677 sec)
SO iteration 14: need to repeat for 0000164272 particles. (took 0.0216451 sec)
SO iteration 15: need to repeat for 0000164108 particles. (took 0.0217531 sec)
SO iteration 16: need to repeat for 0000007855 particles. (took 0.0217969 sec)
SO iteration 17: need to repeat for 0000000222 particles. (took 0.00371099 sec)
SO iteration 18: need to repeat for 0000000015 particles. (took 0.000708103 sec)
SO iteration 1: need to repeat for 0000164272 particles. (took 0.023838 sec)
SO iteration 2: need to repeat for 0000164272 particles. (took 0.0211561 sec)
SO iteration 3: need to repeat for 0000164272 particles. (took 0.020071 sec)
SO iteration 4: need to repeat for 0000164272 particles. (took 0.0204079 sec)
SO iteration 5: need to repeat for 0000164272 particles. (took 0.0206411 sec)
SO iteration 6: need to repeat for 0000164272 particles. (took 0.0205779 sec)
SO iteration 7: need to repeat for 0000164272 particles. (took 0.020432 sec)
SO iteration 8: need to repeat for 0000164272 particles. (took 0.020376 sec)
SO iteration 9: need to repeat for 0000164272 particles. (took 0.0203669 sec)
SO iteration 10: need to repeat for 0000164272 particles. (took 0.0205071 sec)
SO iteration 11: need to repeat for 0000164272 particles. (took 0.0203159 sec)
SO iteration 12: need to repeat for 0000164272 particles. (took 0.0203578 sec)
SO iteration 13: need to repeat for 0000164272 particles. (took 0.0204489 sec)
SO iteration 14: need to repeat for 0000164272 particles. (took 0.020463 sec)
SO iteration 15: need to repeat for 0000164244 particles. (took 0.0203459 sec)
SO iteration 16: need to repeat for 0000164077 particles. (took 0.020479 sec)
SO iteration 17: need to repeat for 0000001873 particles. (took 0.020298 sec)
SO iteration 18: need to repeat for 0000000158 particles. (took 0.00159597 sec)
SO iteration 19: need to repeat for 0000000003 particles. (took 0.000622988 sec)
SO iteration 1: need to repeat for 0000164272 particles. (took 0.0234969 sec)
SO iteration 2: need to repeat for 0000164272 particles. (took 0.0211871 sec)
SO iteration 3: need to repeat for 0000164272 particles. (took 0.019114 sec)
SO iteration 4: need to repeat for 0000164272 particles. (took 0.0184999 sec)
SO iteration 5: need to repeat for 0000164272 particles. (took 0.0191159 sec)
SO iteration 6: need to repeat for 0000164272 particles. (took 0.0191572 sec)
SO iteration 7: need to repeat for 0000164272 particles. (took 0.0189209 sec)
SO iteration 8: need to repeat for 0000164272 particles. (took 0.0195429 sec)
SO iteration 9: need to repeat for 0000164272 particles. (took 0.019264 sec)
SO iteration 10: need to repeat for 0000164272 particles. (took 0.0190651 sec)
SO iteration 11: need to repeat for 0000164272 particles. (took 0.0188129 sec)
SO iteration 12: need to repeat for 0000164272 particles. (took 0.0186889 sec)
SO iteration 13: need to repeat for 0000164272 particles. (took 0.018815 sec)
SO iteration 14: need to repeat for 0000164272 particles. (took 0.018713 sec)
SO iteration 15: need to repeat for 0000164268 particles. (took 0.0186372 sec)
SO iteration 16: need to repeat for 0000164259 particles. (took 0.018626 sec)
SO iteration 17: need to repeat for 0000160329 particles. (took 0.0186799 sec)
SO iteration 18: need to repeat for 0000006416 particles. (took 0.0185192 sec)
SO iteration 19: need to repeat for 0000000233 particles. (took 0.00281715 sec)
SO iteration 20: need to repeat for 0000000011 particles. (took 0.000641823 sec)
determining spherical overdensity masses took 2.57765 sec
finding spherical overdensity particles took 0.557698 sec
determining contamination of halos took 0.289618 sec
Global sort of Groups took 0.27894 sec
Global sort of SubGroups took 0.663547 sec
Global sort of IDs took 0.541317 sec
Writing block 0 (GLEN), n=782, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3128d
Writing block 1 (GOFF), n=782, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3128d
Writing block 2 (MTOT), n=782, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3128d
Writing block 3 (GPOS), n=782, ptype=0, dtype=1, ndim=3, bpb=4 bytes=9384d
Writing block 4 (MMEA), n=782, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3128d
Writing block 5 (RMEA), n=782, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3128d
Writing block 6 (MCRI), n=782, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3128d
Writing block 7 (RCRI), n=782, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3128d
Writing block 8 (MTOP), n=782, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3128d
Writing block 9 (RTOP), n=782, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3128d
Writing block 17 (NCON), n=782, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3128d
Writing block 18 (MCON), n=782, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3128d
Writing block 22 (NSUB), n=782, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3128d
Writing block 23 (FSUB), n=782, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3128d
Writing block 24 (SLEN), n=4150, ptype=1, dtype=0, ndim=1, bpb=4 bytes=16600d
Writing block 25 (SOFF), n=4150, ptype=1, dtype=0, ndim=1, bpb=4 bytes=16600d
Writing block 27 (MSUB), n=4150, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 28 (SPOS), n=4150, ptype=1, dtype=1, ndim=3, bpb=4 bytes=49800d
Writing block 29 (SVEL), n=4150, ptype=1, dtype=1, ndim=3, bpb=4 bytes=49800d
Writing block 30 (SCM ), n=4150, ptype=1, dtype=1, ndim=3, bpb=4 bytes=49800d
Writing block 33 (VMAX), n=4150, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 34 (RMAX), n=4150, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 35 (RHMS), n=4150, ptype=1, dtype=1, ndim=6, bpb=4 bytes=99600d
Writing block 36 (MTRH), n=4150, ptype=1, dtype=1, ndim=6, bpb=4 bytes=99600d
Writing block 37 (MBID), n=4150, ptype=1, dtype=2, ndim=1, bpb=8 bytes=33200d
Writing block 38 (GRNR), n=4150, ptype=1, dtype=0, ndim=1, bpb=4 bytes=16600d
Writing block 39 (SUBN), n=4150, ptype=1, dtype=0, ndim=1, bpb=4 bytes=16600d
Writing block 40 (SMST), n=4150, ptype=1, dtype=1, ndim=6, bpb=4 bytes=99600d
Writing block 53 (PID ), n=549794, ptype=2, dtype=2, ndim=1, bpb=8 bytes=4398352d
Writing block 54 (SLEN), n=4150, ptype=1, dtype=0, ndim=6, bpb=4 bytes=99600d
Writing block 55 (STEN), n=4150, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 56 (SKEN), n=4150, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 57 (SUEN), n=4150, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 58 (SUIT), n=4150, ptype=1, dtype=1, ndim=9, bpb=4 bytes=149400d
Writing block 59 (BHMA), n=4150, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 60 (BHMD), n=4150, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 61 (SVD ), n=4150, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 62 (SVDH), n=4150, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 63 (HMPR), n=4150, ptype=1, dtype=1, ndim=6, bpb=4 bytes=99600d
Writing block 64 (SSFR), n=4150, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 65 (SSA ), n=4150, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 66 (SSBZ), n=4150, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 67 (SSIM), n=4150, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 68 (SSPI), n=4150, ptype=4, dtype=1, ndim=3, bpb=4 bytes=49800d
Writing block 69 (GSPI), n=4150, ptype=1, dtype=1, ndim=3, bpb=4 bytes=49800d
Writing block 70 (FSPI), n=4150, ptype=5, dtype=1, ndim=3, bpb=4 bytes=49800d
Writing block 71 (SFM ), n=4150, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 72 (SFMT), n=4150, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 73 (SFME), n=4150, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 74 (SFAE), n=4150, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 75 (SFKE), n=4150, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 76 (SFTE), n=4150, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 77 (SMWP), n=4150, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 78 (SMM ), n=4150, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 79 (SMMS), n=4150, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 80 (SFZ ), n=4150, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 81 (SFZS), n=4150, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 82 (SSIA), n=4150, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 83 (SIAS), n=4150, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 84 (SMET), n=4150, ptype=5, dtype=1, ndim=9, bpb=4 bytes=149400d
Writing block 85 (SMTS), n=4150, ptype=5, dtype=1, ndim=9, bpb=4 bytes=149400d
Writing block 86 (MF1 ), n=4150, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 87 (MeF1), n=4150, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 88 (MF  ), n=4150, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 89 (MeF2), n=4150, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 90 (MFA ), n=4150, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 91 (MeFA), n=4150, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 92 (NSPI), n=4150, ptype=6, dtype=1, ndim=3, bpb=4 bytes=49800d
Writing block 93 (NFM ), n=4150, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 94 (NFMT), n=4150, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 95 (NFME), n=4150, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 96 (NFAE), n=4150, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 97 (NFKE), n=4150, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 98 (NFTE), n=4150, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 99 (SMWP), n=4150, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 100 (SMM ), n=4150, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 101 (SMMS), n=4150, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 102 (SSIA), n=4150, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 103 (SIAS), n=4150, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 104 (SMET), n=4150, ptype=6, dtype=1, ndim=9, bpb=4 bytes=149400d
Writing block 105 (SMTS), n=4150, ptype=6, dtype=1, ndim=9, bpb=4 bytes=149400d
Writing block 106 (MF1 ), n=4150, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 107 (MeF1), n=4150, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 108 (MF2 ), n=4150, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 109 (MeF2), n=4150, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 110 (MFA ), n=4150, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 111 (MeFA), n=4150, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 112 (SM  ), n=4150, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 113 (SFKE), n=4150, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 114 (SFAE), n=4150, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 115 (SMWP), n=4150, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 116 (SMM ), n=4150, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 117 (SMMS), n=4150, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 118 (SSIA), n=4150, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 119 (SIAS), n=4150, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 120 (SMET), n=4150, ptype=4, dtype=1, ndim=9, bpb=4 bytes=149400d
Writing block 121 (SMTS), n=4150, ptype=4, dtype=1, ndim=9, bpb=4 bytes=149400d
Writing block 122 (MF1 ), n=4150, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 123 (MeF1), n=4150, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 124 (MF2 ), n=4150, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 125 (MeF2), n=4150, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 126 (MFA ), n=4150, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 127 (MeFA), n=4150, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16600d
Writing block 128 (MMe5), n=782, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3128d
Writing block 129 (RMe5), n=782, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3128d
Writing block 130 (MCr5), n=782, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3128d
Writing block 131 (RCr5), n=782, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3128d
Writing block 132 (MMe2), n=782, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3128d
Writing block 133 (RMe2), n=782, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3128d
Writing block 134 (MCr2), n=782, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3128d
Writing block 135 (RCr2), n=782, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3128d
Writing block 136 (MAPT), n=4150, ptype=7, dtype=1, ndim=60, bpb=4 bytes=996000d
Writing block 137 (SAPT), n=4150, ptype=8, dtype=1, ndim=10, bpb=4 bytes=166000d
Writing block 138 (VAPT), n=4150, ptype=9, dtype=1, ndim=10, bpb=4 bytes=166000d
Writing block 139 (BEGY), n=549794, ptype=2, dtype=1, ndim=1, bpb=4 bytes=2199176d
Subgroup catalogues saved. took = 7.25328 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 6.948431e-01
 eagle_ph_key_ort: type= 2 timed by volker 5.459309e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.741192e-02
 eagle_ph_key_ort: type= 4 timed by volker 4.741192e-02
 eagle_ph_key_ort: type= 5 timed by volker 4.741192e-02
 eagle_ph_key_ort: timing parallel sort = 8.069670e-01
 eagle_fetch_elements: we are using 1178319251 bytes of memory, FreeBytes= 1472899064

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 2545.34 Mbyte (on task=0), Smallest = 1318.31 Mbyte, Average = 1352.97 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9492    1202.9632  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5257    1227.4890  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8762    1268.3652  fof_fof()/fof.c/337
   0 2975 0             Group      1.1341    1269.4993  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1251.3368    2520.8361  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.4979    2545.3340  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1281284 number of bytes = 410010880

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3668.67 Mbyte (on task=0), Smallest = 2441.85 Mbyte, Average = 2476.6 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9492    1202.9632  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5257    1227.4890  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8762    1268.3652  fof_fof()/fof.c/337
   0 2975 0             Group      1.1341    1269.4993  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1251.3368    2520.8361  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.4979    2545.3340  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      4.8877    2550.2217  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      4.8877    2555.1094  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      4.8877    2559.9971  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    391.0168    2951.0140  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    391.0168    3342.0308  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    326.6385    3668.6693  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.422085e+00
 eagle_fetch_elements: we are using 1178319251 bytes of memory, FreeBytes= 1472899064
 eagle_fetch_elements: max_bytes= 504, max_elements= 1155214 number of bytes = 582227856
 eagle_ph_key_ort: timing parallel SphP exchange = 1.940012e-03
 eagle_fetch_elements: we are using 1178319251 bytes of memory, FreeBytes= 1472899064
 eagle_fetch_elements: max_bytes= 384, max_elements= 1510665 number of bytes = 580095360
 eagle_ph_key_ort: timing parallel MetP exchange = 4.978180e-04
 eagle_fetch_elements: we are using 1178319251 bytes of memory, FreeBytes= 1472899064
 eagle_fetch_elements: max_bytes= 256, max_elements= 2248700 number of bytes = 575667200
 eagle_ph_key_ort: timing parallel BHP exchange = 4.439354e-04
Sorting particle-data by peano-hilbert key took = 3.61005 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1178319251 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1281284 number of bytes= 410010880
 eagle_ph_restore: timing parallel P exchange = 2.329791e+00
 eagle_send_elements: we are using 1178319251 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1155214 number of bytes= 582227856
 eagle_ph_restore: timing parallel SphP exchange = 1.981020e-03
 eagle_send_elements: we are using 1178319251 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1510665 number of bytes= 580095360
 eagle_ph_restore: timing parallel MetP exchange = 6.411076e-04
 eagle_send_elements: we are using 1178319251 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 2248700 number of bytes= 575667200
 eagle_ph_restore: timing parallel BHP exchange = 7.069111e-04
Restoring original order after ph key sorting took = 2.34956 sec

finished writing particle file...

Finished with SUBFIND.  (total time=4463 sec)

Finished computing FoF groups.  (presently allocated=1202.96 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=179793
After=200513
NTopleaves= 175449  NTopnodes=200513 (space for 244687)
gravity work-load balance=1.00058   memory-balance=1.00058   SPH work-load balance=0
iter=0 exchange of 0273057736 particles (ret=0)
domain decomposition done. (took 3.90961 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.02213 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 16: endrun called with an error level of 124


task 16: endrun called with an error level of 124


task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
task 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 112: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
task 112: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 128: endrun called with an error level of 124


task 128: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 160: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
task 160: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
task 176: endrun called with an error level of 124


task 176: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 192: endrun called with an error level of 124


task 192: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
Finished FOF, total time doing fof/subfind = 4521.55 s
task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.71 Mb (on task=112), Smallest =   62646.61 Mb (on task=0), Average =   62686.82 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1885.46 Mb (on task=0), Smallest =    1798.35 Mb (on task=112), Average =    1845.26 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16342.36 Mb (on task=0), Average =   16352.21 Mb
AllocMem:	 Largest =    1885.46 Mb (on task=0), Smallest =    1798.35 Mb (on task=112), Average =    1845.26 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_021_z000p297/snap_021_z000p297.0.hdf5' on task=0 (contains 17262107 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  17077009  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     25713  (tot=     0000303834) masstab=0
Type 3 (bulge):   159385  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.775031

Setting next time for line of sight file to Time_next= 0.772075

Setting next time for snipshot file to Time_next= 0.77857

Setting next time for fof output to Time_next= 0.77857
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.17646 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=194353
After=197857
NTopleaves= 173125  NTopnodes=197857 (space for 244687)
gravity work-load balance=1.0004   memory-balance=1.0004   SPH work-load balance=0
iter=0 exchange of 0273027814 particles (ret=0)
domain decomposition done. (took 10.3967 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.14371 MByte in top-level domain structure

Allocated 503.11 MByte for BH-tree, and 0.660419 Mbyte for top-leaves.  (presently allocted 1706.6 MB)

Begin Ngb-tree construction.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1752.77 Mbyte (on task=49), Smallest = 1752.71 Mbyte, Average = 1752.76 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  49 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
  49 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
  49 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
  49 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
  49 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
  49 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
  49 2972 0          TopNodes      9.8119    1202.8270  domain_allocate()/domain.c/570
  49 2973 0   DomainNodeIndex      0.6604    1203.4874  force_treeallocate()/forcetree.c/4800
  49 2974 0        Nodes_base    258.4083    1461.8957  force_treeallocate()/forcetree.c/4803
  49 2975 0     Extnodes_base    215.3403    1677.2360  force_treeallocate()/forcetree.c/4811
  49 2976 0          Nextnode     15.0580    1692.2940  force_treeallocate()/forcetree.c/4820
  49 2977 0            Father     14.3032    1706.5972  force_treeallocate()/forcetree.c/4827
  49 2978 0           Ngblist      4.0883    1710.6855  density()/density.c/690
  49 2979 0              Left      8.1765    1718.8620  density()/density.c/692
  49 2980 0             Right      8.1765    1727.0385  density()/density.c/693
  49 2981 0    DataIndexTable      7.0175    1734.0561  density()/density.c/738
  49 2982 0      DataNodeList     18.7134    1752.7695  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.271.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.333.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.6 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=180145
After=199705
NTopleaves= 174742  NTopnodes=199705 (space for 244687)
gravity work-load balance=1.00068   memory-balance=1.00068   SPH work-load balance=0
iter=0 exchange of 0273350014 particles (ret=0)
domain decomposition done. (took 3.82342 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.05911 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1202.92 MB)
Tree construction.

Start linking particles (presently allocated=1756.08 MB)
links on local processor done (took 8.2043 sec).
Marked=0062332540 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1857.69 MB) 
have done 0000987895 cross links (processed 0062332540, took 5.00154 sec)
have done 0000433446 cross links (processed 0048798964, took 4.64838 sec)
have done 0000308213 cross links (processed 0041016982, took 4.46305 sec)
have done 0000207879 cross links (processed 0029254456, took 3.47182 sec)
have done 0000141389 cross links (processed 0020899634, took 3.06122 sec)
have done 0000100054 cross links (processed 0014089415, took 3.85983 sec)
have done 0000066934 cross links (processed 0007741193, took 2.19799 sec)
have done 0000037588 cross links (processed 0003314659, took 0.983633 sec)
have done 0000016747 cross links (processed 0000751699, took 0.44154 sec)
have done 0000006540 cross links (processed 0000201502, took 0.218574 sec)
have done 0000002936 cross links (processed 0000125918, took 0.214125 sec)
have done 0000001271 cross links (processed 0000032524, took 0.0822251 sec)
have done 0000000484 cross links (processed 0000015398, took 0.0788648 sec)
have done 0000000203 cross links (processed 0000003094, took 0.04528 sec)
have done 0000000150 cross links (processed 0000011810, took 0.055701 sec)
have done 0000000101 cross links (processed 0000003556, took 0.0479522 sec)
have done 0000000028 cross links (processed 0000000489, took 0.0449579 sec)
have done 0000000005 cross links (processed 0000000081, took 0.044713 sec)
have done 0000000000 cross links (processed 0000000012, took 0.04493 sec)
Local groups found.

group finding took = 37.3072 sec
Start finding nearest dm-particle (presently allocated=1756.08 MB)
still finding nearest... (presently allocated=1845.54 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.11043 sec
compiling local group data and catalogue took = 0.608656 sec

Total number of groups with at least 32 particles: 196758
Largest group has 11656657 particles.
Total number of particles in groups: 0141250258

group properties are now allocated.. (presently allocated=1269.44 MB)
computation of group properties took = 0.0745339 sec
start global sorting of group catalogues number 21
LargestGroup = 9175.761446; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.051477 sec
Group catalogues globally sorted. took = 0.813019 sec
starting saving of group catalogue number 21
data//groups_021_z000p297
Group catalogues number 21 saved. took = 2.55842 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.724768 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.263885 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.749978 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0191481699 particles. (took 20.7048 sec)
ngb iteration 2: need to repeat for 0148656272 particles. (took 10.1612 sec)
ngb iteration 3: need to repeat for 0129779032 particles. (took 7.39891 sec)
ngb iteration 4: need to repeat for 0117778352 particles. (took 6.15125 sec)
ngb iteration 5: need to repeat for 0105155226 particles. (took 5.33815 sec)
ngb iteration 6: need to repeat for 0087722113 particles. (took 4.66465 sec)
ngb iteration 7: need to repeat for 0066302963 particles. (took 3.97934 sec)
ngb iteration 8: need to repeat for 0045523395 particles. (took 3.16811 sec)
ngb iteration 9: need to repeat for 0029004482 particles. (took 2.31612 sec)
ngb iteration 10: need to repeat for 0017542225 particles. (took 1.58958 sec)
ngb iteration 11: need to repeat for 0010279477 particles. (took 1.01491 sec)
ngb iteration 12: need to repeat for 0005921489 particles. (took 0.620611 sec)
ngb iteration 13: need to repeat for 0003390652 particles. (took 0.377476 sec)
ngb iteration 14: need to repeat for 0001844221 particles. (took 0.246651 sec)
ngb iteration 15: need to repeat for 0000868885 particles. (took 0.164581 sec)
ngb iteration 16: need to repeat for 0000441126 particles. (took 0.103628 sec)
ngb iteration 17: need to repeat for 0000235198 particles. (took 0.0950551 sec)
ngb iteration 18: need to repeat for 0000127753 particles. (took 0.068213 sec)
ngb iteration 19: need to repeat for 0000068973 particles. (took 0.0528002 sec)
ngb iteration 20: need to repeat for 0000036546 particles. (took 0.050024 sec)
ngb iteration 21: need to repeat for 0000018792 particles. (took 0.0453761 sec)
ngb iteration 22: need to repeat for 0000009257 particles. (took 0.043092 sec)
ngb iteration 23: need to repeat for 0000004430 particles. (took 0.041872 sec)
ngb iteration 24: need to repeat for 0000001996 particles. (took 0.0411799 sec)
ngb iteration 25: need to repeat for 0000000853 particles. (took 0.040839 sec)
ngb iteration 26: need to repeat for 0000000311 particles. (took 0.0406361 sec)
ngb iteration 27: need to repeat for 0000000125 particles. (took 0.0404992 sec)
ngb iteration 28: need to repeat for 0000000041 particles. (took 0.0405381 sec)
ngb iteration 29: need to repeat for 0000000016 particles. (took 0.040915 sec)
ngb iteration 30: need to repeat for 0000000001 particles. (took 0.040453 sec)
final operations ... 
density and smoothing length for species 1 took 69.0448 sec
Tree construction.
tree build took 0.724725 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.264879 sec
Tree construction.
tree build took 0.727066 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.262804 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.179395 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 2.03782 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.720466 sec
density() of species 1 took 1.19209e-06 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.173889 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 2.02956 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.176413 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 2.01337 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.992577 sec
saving densities took 2.77733 sec

Number of FOF halos treated with collective SubFind code = 6
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 196752 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 21120 - 61060665 

subfind_exchange()() took 1.66877 sec

collectively doing halo 1, num=21
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2560.75 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2620.3 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 2620.3 Mbyte (on task=0), Smallest = 1352.89 Mbyte, Average = 1388.87 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9036    1202.9176  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5346    1227.4522  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8910    1268.3432  fof_fof()/fof.c/337
   0 2975 0             Group      1.0978    1269.4410  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1291.3062    2560.7473  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    2573.0065  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    2601.6130  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    2602.5581  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    2603.4915  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    2604.4249  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    2605.3583  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    2606.2956  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    2607.2330  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    2620.3007  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=133281
After=170665
NTopleaves= 149332  NTopnodes=170665 (space for 244687)
gravity work-load balance=1.00049   memory-balance=1.00049   SPH work-load balance=0
iter=0 exchange of 0011616107 particles (ret=0)
domain decomposition done. (took 1.06878 sec)
Freed 3.38846 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 3068.35 Mbyte (on task=0), Smallest = 1800.93 Mbyte, Average = 1836.92 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9036    1202.9176  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5346    1227.4522  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8910    1268.3432  fof_fof()/fof.c/337
   0 2975 0             Group      1.0978    1269.4410  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1291.3062    2560.7473  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.4635    2569.3357  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5697    2569.9054  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    255.9188    2825.8242  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base    213.2657    3039.0899  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9542    3054.0441  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    3068.3473  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.55052 sec  (presently allocated=3068.35 MB)
force_treebuild() took 1.90675 sec (presently allocated=3068.35 MB)
Start find_linkngb (45342 particles on task=0)
find linkngb iteration 1: need to repeat for 0011123736 particles. (took 0.918006 sec)
find linkngb iteration 2: need to repeat for 0010206553 particles. (took 0.649387 sec)
find linkngb iteration 3: need to repeat for 0009735113 particles. (took 0.435904 sec)
find linkngb iteration 4: need to repeat for 0008523314 particles. (took 0.493686 sec)
find linkngb iteration 5: need to repeat for 0007080730 particles. (took 0.422284 sec)
find linkngb iteration 6: need to repeat for 0005129265 particles. (took 0.347921 sec)
find linkngb iteration 7: need to repeat for 0003227686 particles. (took 0.25424 sec)
find linkngb iteration 8: need to repeat for 0001834918 particles. (took 0.156097 sec)
find linkngb iteration 9: need to repeat for 0000983408 particles. (took 0.095345 sec)
find linkngb iteration 10: need to repeat for 0000509863 particles. (took 0.0577781 sec)
find linkngb iteration 11: need to repeat for 0000258935 particles. (took 0.0356429 sec)
find linkngb iteration 12: need to repeat for 0000054757 particles. (took 0.0229969 sec)
find linkngb iteration 13: need to repeat for 0000001158 particles. (took 0.0105901 sec)
find linkngb iteration 14: need to repeat for 0000000378 particles. (took 0.000890017 sec)
find linkngb iteration 15: need to repeat for 0000000131 particles. (took 0.000654221 sec)
find linkngb iteration 16: need to repeat for 0000000038 particles. (took 0.000486135 sec)
find linkngb iteration 17: need to repeat for 0000000013 particles. (took 0.000461817 sec)
find linkngb iteration 18: need to repeat for 0000000001 particles. (took 0.000455141 sec)
find_linkngb() took 3.90434 sec
Start finding nearest two (45342 particles on task=0)
find_nearesttwo() took 0.724785 sec (presently allocated=3071.81 MB)
parallel sort of densities done. took 0.074492 sec
building distributed linked list. (presently allocated 3071.36 MB)
identification of primary candidates took 294.716 sec
adding background as candidate took 0.158896 sec
establishing of rank order took 91.1953 sec  (p=11656657, grouplen=11656657) presently allocated 3071.36 MB

total number of subhalo candidates=55875

number of subhalo candidates that can be done independently=49030.
(Largest size is 3786, finding them took 0.0151682 sec)
particles are marked (took 67.0875)
independent subhalos are assembled on individual CPUs for unbinding (0.209601 sec, (presently allocated=3071.36 MB)
unbinding of independent ones took 0.0913489 sec
particles have returned to their original processor (0.275053 sec, presently allocated 3071.36 MB)

number of subhalo candidates that can be done independently=6267.
(Largest size is 12386, finding them took 1.10298 sec)
particles are marked (took 43.6025)
independent subhalos are assembled on individual CPUs for unbinding (0.189323 sec, (presently allocated=3071.36 MB)
unbinding of independent ones took 0.472217 sec
particles have returned to their original processor (0.258799 sec, presently allocated 3071.36 MB)

number of subhalo candidates that can be done independently=528.
(Largest size is 93268, finding them took 1.09406 sec)
particles are marked (took 36.2697)
independent subhalos are assembled on individual CPUs for unbinding (0.189635 sec, (presently allocated=3071.36 MB)
unbinding of independent ones took 2.51897 sec
particles have returned to their original processor (0.2551 sec, presently allocated 3071.36 MB)

number of subhalo candidates that can be done independently=45.
(Largest size is 958297, finding them took 1.06805 sec)
too big candidates, I do the rest collectively

collective unbinding of nr=0 (50) of length=726 ... maximum alloacted 3071.53 MB
took 2.10087 sec
collective unbinding of nr=1 (50) of length=2538 ... maximum alloacted 3071.53 MB
took 2.97652 sec
collective unbinding of nr=2 (50) of length=351 ... maximum alloacted 3071.53 MB
took 1.78203 sec
collective unbinding of nr=3 (50) of length=5880 ... maximum alloacted 3071.53 MB
took 2.25687 sec
collective unbinding of nr=4 (50) of length=1989 ... maximum alloacted 3071.53 MB
took 2.80409 sec
collective unbinding of nr=5 (50) of length=37047 ... maximum alloacted 3071.53 MB
took 2.33393 sec
collective unbinding of nr=6 (50) of length=208780 ... maximum alloacted 3071.53 MB
took 5.79833 sec
collective unbinding of nr=7 (50) of length=1980 ... maximum alloacted 3071.53 MB
took 1.1918 sec
collective unbinding of nr=8 (50) of length=3004 ... maximum alloacted 3071.53 MB
took 1.3946 sec
collective unbinding of nr=9 (50) of length=37242 ... maximum alloacted 3071.53 MB
took 7.79386 sec
collective unbinding of nr=10 (50) of length=606 ... maximum alloacted 3071.53 MB
took 1.61899 sec
collective unbinding of nr=11 (50) of length=1300 ... maximum alloacted 3071.53 MB
took 1.48057 sec
collective unbinding of nr=12 (50) of length=3453 ... maximum alloacted 3071.53 MB
took 1.7225 sec
collective unbinding of nr=13 (50) of length=958297 ... maximum alloacted 3071.53 MB
took 15.9948 sec
collective unbinding of nr=14 (50) of length=5817 ... maximum alloacted 3071.53 MB
took 3.42193 sec
collective unbinding of nr=15 (50) of length=352 ... maximum alloacted 3071.53 MB
took 1.78246 sec
collective unbinding of nr=16 (50) of length=1064 ... maximum alloacted 3071.53 MB
took 1.16171 sec
collective unbinding of nr=17 (50) of length=3415 ... maximum alloacted 3071.53 MB
took 2.04798 sec
collective unbinding of nr=18 (50) of length=3035 ... maximum alloacted 3071.53 MB
took 1.20724 sec
collective unbinding of nr=19 (50) of length=1335 ... maximum alloacted 3071.53 MB
took 2.43785 sec
collective unbinding of nr=20 (50) of length=1058 ... maximum alloacted 3071.53 MB
took 1.32851 sec
collective unbinding of nr=21 (50) of length=138469 ... maximum alloacted 3071.53 MB
took 3.84373 sec
collective unbinding of nr=22 (50) of length=965 ... maximum alloacted 3071.53 MB
took 1.49038 sec
collective unbinding of nr=23 (50) of length=21474 ... maximum alloacted 3071.53 MB
took 1.39964 sec
collective unbinding of nr=24 (50) of length=3069 ... maximum alloacted 3071.53 MB
took 1.05584 sec
collective unbinding of nr=25 (50) of length=626 ... maximum alloacted 3071.53 MB
took 1.29596 sec
collective unbinding of nr=26 (50) of length=9213 ... maximum alloacted 3071.53 MB
took 1.84379 sec
collective unbinding of nr=27 (50) of length=888 ... maximum alloacted 3071.53 MB
took 2.30213 sec
collective unbinding of nr=28 (50) of length=36233 ... maximum alloacted 3071.53 MB
took 2.06378 sec
collective unbinding of nr=29 (50) of length=8584 ... maximum alloacted 3071.53 MB
took 0.960929 sec
collective unbinding of nr=30 (50) of length=27915 ... maximum alloacted 3071.53 MB
took 1.39382 sec
collective unbinding of nr=31 (50) of length=3541 ... maximum alloacted 3071.53 MB
took 1.56946 sec
collective unbinding of nr=32 (50) of length=6124 ... maximum alloacted 3071.53 MB
took 3.92726 sec
collective unbinding of nr=33 (50) of length=22906 ... maximum alloacted 3071.53 MB
took 1.24592 sec
collective unbinding of nr=34 (50) of length=3060 ... maximum alloacted 3071.53 MB
took 3.00417 sec
collective unbinding of nr=35 (50) of length=3035 ... maximum alloacted 3071.53 MB
took 3.0067 sec
collective unbinding of nr=36 (50) of length=7626 ... maximum alloacted 3071.53 MB
took 2.79226 sec
collective unbinding of nr=37 (50) of length=2425 ... maximum alloacted 3071.53 MB
took 2.79623 sec
collective unbinding of nr=38 (50) of length=8874 ... maximum alloacted 3071.53 MB
took 1.85099 sec
collective unbinding of nr=39 (50) of length=2862 ... maximum alloacted 3071.53 MB
took 1.84482 sec
collective unbinding of nr=40 (50) of length=8379 ... maximum alloacted 3071.53 MB
took 1.00339 sec
collective unbinding of nr=41 (50) of length=1112 ... maximum alloacted 3071.53 MB
took 2.49428 sec
collective unbinding of nr=42 (50) of length=1725 ... maximum alloacted 3071.53 MB
took 2.013 sec
collective unbinding of nr=43 (50) of length=7564 ... maximum alloacted 3071.53 MB
took 3.63406 sec
collective unbinding of nr=44 (50) of length=3274 ... maximum alloacted 3071.53 MB
took 2.04914 sec
collective unbinding of nr=45 (50) of length=10901 ... maximum alloacted 3071.53 MB
took 2.08718 sec
collective unbinding of nr=46 (50) of length=15758 ... maximum alloacted 3071.53 MB
took 1.28936 sec
collective unbinding of nr=47 (50) of length=2128 ... maximum alloacted 3071.53 MB
took 1.19381 sec
collective unbinding of nr=48 (50) of length=5395 ... maximum alloacted 3071.53 MB
took 1.72686 sec
collective unbinding of nr=49 (50) of length=11656657 ... maximum alloacted 3071.53 MB
took 196.938 sec

the collective unbinding of remaining halos took 343.456 sec

found 3466 bound substructures in FoF group of length 11656657
determination of parent subhalo took 0.0604401 sec (presently allocated 3071.53 MB)
determining substructure properties took 235.205 sec (presently allocated 3071.53 MB)

collectively doing halo 2, num=21
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2560.75 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2620.3 MB)
Before=137705
After=164089
NTopleaves= 143578  NTopnodes=164089 (space for 244687)
gravity work-load balance=1.00054   memory-balance=1.00054   SPH work-load balance=0
iter=0 exchange of 0010292785 particles (ret=0)
domain decomposition done. (took 1.06561 sec)
Freed 3.68948 MByte in top-level domain structure
coldomain_Decomposition() took 1.5396 sec  (presently allocated=3066.87 MB)
force_treebuild() took 1.90152 sec (presently allocated=3066.87 MB)
Start find_linkngb (40188 particles on task=0)
find linkngb iteration 1: need to repeat for 0009942553 particles. (took 0.812695 sec)
find linkngb iteration 2: need to repeat for 0009178871 particles. (took 0.569153 sec)
find linkngb iteration 3: need to repeat for 0008755620 particles. (took 0.38572 sec)
find linkngb iteration 4: need to repeat for 0007676862 particles. (took 0.437994 sec)
find linkngb iteration 5: need to repeat for 0006378924 particles. (took 0.401278 sec)
find linkngb iteration 6: need to repeat for 0004619827 particles. (took 0.305993 sec)
find linkngb iteration 7: need to repeat for 0002905920 particles. (took 0.217096 sec)
find linkngb iteration 8: need to repeat for 0001652325 particles. (took 0.137795 sec)
find linkngb iteration 9: need to repeat for 0000884318 particles. (took 0.085165 sec)
find linkngb iteration 10: need to repeat for 0000459084 particles. (took 0.052141 sec)
find linkngb iteration 11: need to repeat for 0000233941 particles. (took 0.0325701 sec)
find linkngb iteration 12: need to repeat for 0000049372 particles. (took 0.0215001 sec)
find linkngb iteration 13: need to repeat for 0000001108 particles. (took 0.0102241 sec)
find linkngb iteration 14: need to repeat for 0000000335 particles. (took 0.000887156 sec)
find linkngb iteration 15: need to repeat for 0000000136 particles. (took 0.000579834 sec)
find linkngb iteration 16: need to repeat for 0000000047 particles. (took 0.000695944 sec)
find linkngb iteration 17: need to repeat for 0000000017 particles. (took 0.000435114 sec)
find linkngb iteration 18: need to repeat for 0000000003 particles. (took 0.000501156 sec)
find_linkngb() took 3.47346 sec
Start finding nearest two (40188 particles on task=0)
find_nearesttwo() took 0.641073 sec (presently allocated=3069.94 MB)
parallel sort of densities done. took 0.0677998 sec
building distributed linked list. (presently allocated 3069.54 MB)
identification of primary candidates took 257.399 sec
adding background as candidate took 0.160934 sec
establishing of rank order took 80.5728 sec  (p=10330176, grouplen=10330176) presently allocated 3069.54 MB

total number of subhalo candidates=49999

number of subhalo candidates that can be done independently=43630.
(Largest size is 3926, finding them took 0.0134501 sec)
particles are marked (took 60.005)
independent subhalos are assembled on individual CPUs for unbinding (0.202271 sec, (presently allocated=3069.54 MB)
unbinding of independent ones took 0.0858669 sec
particles have returned to their original processor (0.28664 sec, presently allocated 3069.54 MB)

number of subhalo candidates that can be done independently=5830.
(Largest size is 12746, finding them took 1.08893 sec)
particles are marked (took 40.1344)
independent subhalos are assembled on individual CPUs for unbinding (0.190325 sec, (presently allocated=3069.54 MB)
unbinding of independent ones took 0.410161 sec
particles have returned to their original processor (0.25759 sec, presently allocated 3069.54 MB)

number of subhalo candidates that can be done independently=490.
(Largest size is 77625, finding them took 1.08314 sec)
particles are marked (took 31.9079)
independent subhalos are assembled on individual CPUs for unbinding (0.177616 sec, (presently allocated=3069.54 MB)
unbinding of independent ones took 2.36117 sec
particles have returned to their original processor (0.252651 sec, presently allocated 3069.54 MB)

number of subhalo candidates that can be done independently=42.
(Largest size is 144103, finding them took 1.11301 sec)
particles are marked (took 33.6866)
independent subhalos are assembled on individual CPUs for unbinding (0.189559 sec, (presently allocated=3069.54 MB)
unbinding of independent ones took 7.20594 sec
particles have returned to their original processor (0.264268 sec, presently allocated 3069.54 MB)

number of subhalo candidates that can be done independently=6.
(Largest size is 35870, finding them took 0.579116 sec)
particles are marked (took 23.802)
independent subhalos are assembled on individual CPUs for unbinding (0.164688 sec, (presently allocated=3069.54 MB)
unbinding of independent ones took 0.947015 sec
particles have returned to their original processor (0.237214 sec, presently allocated 3069.54 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 10330176, finding them took 0.568731 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=10330176 ... maximum alloacted 3069.69 MB
took 174.862 sec

the collective unbinding of remaining halos took 196.733 sec

found 3323 bound substructures in FoF group of length 10330176
determination of parent subhalo took 0.0474381 sec (presently allocated 3069.69 MB)
determining substructure properties took 206.237 sec (presently allocated 3069.69 MB)

collectively doing halo 3, num=21
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2560.75 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2620.3 MB)
Before=140121
After=167985
NTopleaves= 146987  NTopnodes=167985 (space for 244687)
gravity work-load balance=1.00061   memory-balance=1.00061   SPH work-load balance=0
iter=0 exchange of 0006989684 particles (ret=0)
domain decomposition done. (took 1.04986 sec)
Freed 3.51114 MByte in top-level domain structure
coldomain_Decomposition() took 1.51938 sec  (presently allocated=3067.75 MB)
force_treebuild() took 1.88609 sec (presently allocated=3067.75 MB)
Start find_linkngb (27316 particles on task=0)
find linkngb iteration 1: need to repeat for 0006892977 particles. (took 0.538493 sec)
find linkngb iteration 2: need to repeat for 0006543301 particles. (took 0.372954 sec)
find linkngb iteration 3: need to repeat for 0006251091 particles. (took 0.252717 sec)
find linkngb iteration 4: need to repeat for 0005522017 particles. (took 0.310388 sec)
find linkngb iteration 5: need to repeat for 0004604259 particles. (took 0.266206 sec)
find linkngb iteration 6: need to repeat for 0003342609 particles. (took 0.202955 sec)
find linkngb iteration 7: need to repeat for 0002105023 particles. (took 0.146616 sec)
find linkngb iteration 8: need to repeat for 0001199599 particles. (took 0.0964761 sec)
find linkngb iteration 9: need to repeat for 0000642543 particles. (took 0.060667 sec)
find linkngb iteration 10: need to repeat for 0000332823 particles. (took 0.037724 sec)
find linkngb iteration 11: need to repeat for 0000169096 particles. (took 0.024446 sec)
find linkngb iteration 12: need to repeat for 0000036145 particles. (took 0.017514 sec)
find linkngb iteration 13: need to repeat for 0000000858 particles. (took 0.00899196 sec)
find linkngb iteration 14: need to repeat for 0000000246 particles. (took 0.000752926 sec)
find linkngb iteration 15: need to repeat for 0000000064 particles. (took 0.000518084 sec)
find linkngb iteration 16: need to repeat for 0000000023 particles. (took 0.00039506 sec)
find linkngb iteration 17: need to repeat for 0000000005 particles. (took 0.000415087 sec)
find_linkngb() took 2.33916 sec
Start finding nearest two (27316 particles on task=0)
find_nearesttwo() took 0.445481 sec (presently allocated=3069.83 MB)
parallel sort of densities done. took 0.0574901 sec
building distributed linked list. (presently allocated 3069.56 MB)
identification of primary candidates took 182.727 sec
adding background as candidate took 0.159794 sec
establishing of rank order took 56.0452 sec  (p=7017035, grouplen=7017035) presently allocated 3069.56 MB

total number of subhalo candidates=31532

number of subhalo candidates that can be done independently=27957.
(Largest size is 2574, finding them took 0.00860095 sec)
particles are marked (took 38.8289)
independent subhalos are assembled on individual CPUs for unbinding (0.183721 sec, (presently allocated=3069.56 MB)
unbinding of independent ones took 0.047255 sec
particles have returned to their original processor (0.250587 sec, presently allocated 3069.56 MB)

number of subhalo candidates that can be done independently=3289.
(Largest size is 13874, finding them took 1.06772 sec)
particles are marked (took 25.3123)
independent subhalos are assembled on individual CPUs for unbinding (0.178523 sec, (presently allocated=3069.56 MB)
unbinding of independent ones took 0.391371 sec
particles have returned to their original processor (0.246756 sec, presently allocated 3069.56 MB)

number of subhalo candidates that can be done independently=255.
(Largest size is 58611, finding them took 1.08278 sec)
particles are marked (took 19.8322)
independent subhalos are assembled on individual CPUs for unbinding (0.174313 sec, (presently allocated=3069.56 MB)
unbinding of independent ones took 1.87817 sec
particles have returned to their original processor (0.249085 sec, presently allocated 3069.56 MB)

number of subhalo candidates that can be done independently=25.
(Largest size is 254936, finding them took 0.573006 sec)
particles are marked (took 17.43)
independent subhalos are assembled on individual CPUs for unbinding (0.167597 sec, (presently allocated=3069.56 MB)
unbinding of independent ones took 1.55205 sec
particles have returned to their original processor (0.240565 sec, presently allocated 3069.56 MB)

number of subhalo candidates that can be done independently=2.
(Largest size is 473821, finding them took 0.564405 sec)
particles are marked (took 15.633)
independent subhalos are assembled on individual CPUs for unbinding (0.171942 sec, (presently allocated=3069.56 MB)
unbinding of independent ones took 1.77059 sec
particles have returned to their original processor (0.250107 sec, presently allocated 3069.56 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 473821, finding them took 0.532005 sec)
too few, I do the rest of 4 collectively

collective unbinding of nr=0 (4) of length=473821 ... maximum alloacted 3069.66 MB
took 9.55943 sec
collective unbinding of nr=1 (4) of length=257174 ... maximum alloacted 3069.66 MB
took 5.01866 sec
collective unbinding of nr=2 (4) of length=254936 ... maximum alloacted 3069.66 MB
took 5.62406 sec
collective unbinding of nr=3 (4) of length=7017035 ... maximum alloacted 3069.66 MB
took 126.391 sec

the collective unbinding of remaining halos took 160.44 sec

found 2513 bound substructures in FoF group of length 7017035
determination of parent subhalo took 0.0412841 sec (presently allocated 3069.66 MB)
determining substructure properties took 151.022 sec (presently allocated 3069.66 MB)

collectively doing halo 4, num=21
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2560.75 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2620.3 MB)
Before=138417
After=164921
NTopleaves= 144306  NTopnodes=164921 (space for 244687)
gravity work-load balance=1.00049   memory-balance=1.00049   SPH work-load balance=0
iter=0 exchange of 0005441358 particles (ret=0)
domain decomposition done. (took 1.03438 sec)
Freed 3.6514 MByte in top-level domain structure
coldomain_Decomposition() took 1.5046 sec  (presently allocated=3067.06 MB)
force_treebuild() took 1.8817 sec (presently allocated=3067.06 MB)
Start find_linkngb (21349 particles on task=0)
find linkngb iteration 1: need to repeat for 0005413459 particles. (took 0.423274 sec)
find linkngb iteration 2: need to repeat for 0005219536 particles. (took 0.280415 sec)
find linkngb iteration 3: need to repeat for 0004992293 particles. (took 0.191492 sec)
find linkngb iteration 4: need to repeat for 0004433496 particles. (took 0.218667 sec)
find linkngb iteration 5: need to repeat for 0003709446 particles. (took 0.189342 sec)
find linkngb iteration 6: need to repeat for 0002697119 particles. (took 0.160578 sec)
find linkngb iteration 7: need to repeat for 0001700763 particles. (took 0.116915 sec)
find linkngb iteration 8: need to repeat for 0000966817 particles. (took 0.0781629 sec)
find linkngb iteration 9: need to repeat for 0000517429 particles. (took 0.0502901 sec)
find linkngb iteration 10: need to repeat for 0000268537 particles. (took 0.031064 sec)
find linkngb iteration 11: need to repeat for 0000136885 particles. (took 0.0207641 sec)
find linkngb iteration 12: need to repeat for 0000029679 particles. (took 0.0148659 sec)
find linkngb iteration 13: need to repeat for 0000000641 particles. (took 0.00881195 sec)
find linkngb iteration 14: need to repeat for 0000000177 particles. (took 0.000740051 sec)
find linkngb iteration 15: need to repeat for 0000000058 particles. (took 0.000463009 sec)
find linkngb iteration 16: need to repeat for 0000000018 particles. (took 0.000405073 sec)
find linkngb iteration 17: need to repeat for 0000000005 particles. (took 0.000431061 sec)
find linkngb iteration 18: need to repeat for 0000000001 particles. (took 0.000424862 sec)
find_linkngb() took 1.78805 sec
Start finding nearest two (21349 particles on task=0)
find_nearesttwo() took 0.353678 sec (presently allocated=3068.69 MB)
parallel sort of densities done. took 0.0534301 sec
building distributed linked list. (presently allocated 3068.47 MB)
identification of primary candidates took 141.418 sec
adding background as candidate took 0.200949 sec
establishing of rank order took 44.8005 sec  (p=5463172, grouplen=5463172) presently allocated 3068.47 MB

total number of subhalo candidates=23528

number of subhalo candidates that can be done independently=20986.
(Largest size is 3794, finding them took 0.00641012 sec)
particles are marked (took 29.2045)
independent subhalos are assembled on individual CPUs for unbinding (0.177246 sec, (presently allocated=3068.47 MB)
unbinding of independent ones took 0.072351 sec
particles have returned to their original processor (0.246302 sec, presently allocated 3068.47 MB)

number of subhalo candidates that can be done independently=2368.
(Largest size is 47934, finding them took 1.04231 sec)
particles are marked (took 19.2652)
independent subhalos are assembled on individual CPUs for unbinding (0.176935 sec, (presently allocated=3068.47 MB)
unbinding of independent ones took 1.31165 sec
particles have returned to their original processor (0.249539 sec, presently allocated 3068.47 MB)

number of subhalo candidates that can be done independently=160.
(Largest size is 69292, finding them took 1.10884 sec)
particles are marked (took 15.2897)
independent subhalos are assembled on individual CPUs for unbinding (0.179135 sec, (presently allocated=3068.47 MB)
unbinding of independent ones took 2.90345 sec
particles have returned to their original processor (0.253479 sec, presently allocated 3068.47 MB)

number of subhalo candidates that can be done independently=12.
(Largest size is 365257, finding them took 0.559843 sec)
particles are marked (took 15.7434)
independent subhalos are assembled on individual CPUs for unbinding (0.198523 sec, (presently allocated=3068.47 MB)
unbinding of independent ones took 7.98184 sec
particles have returned to their original processor (0.280771 sec, presently allocated 3068.47 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 365257, finding them took 0.555421 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=365257 ... maximum alloacted 3068.56 MB
took 8.62052 sec
collective unbinding of nr=1 (2) of length=5463172 ... maximum alloacted 3068.56 MB
took 109.167 sec

the collective unbinding of remaining halos took 128.197 sec

found 1956 bound substructures in FoF group of length 5463172
determination of parent subhalo took 0.0401959 sec (presently allocated 3068.56 MB)
determining substructure properties took 117.016 sec (presently allocated 3068.56 MB)

collectively doing halo 5, num=21
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2560.75 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2620.3 MB)
Before=144249
After=166257
NTopleaves= 145475  NTopnodes=166257 (space for 244687)
gravity work-load balance=1.00047   memory-balance=1.00047   SPH work-load balance=0
iter=0 exchange of 0003994928 particles (ret=0)
domain decomposition done. (took 0.971796 sec)
Freed 3.59024 MByte in top-level domain structure
coldomain_Decomposition() took 1.44349 sec  (presently allocated=3067.36 MB)
force_treebuild() took 1.87579 sec (presently allocated=3067.36 MB)
Start find_linkngb (15660 particles on task=0)
find linkngb iteration 1: need to repeat for 0003989978 particles. (took 0.293211 sec)
find linkngb iteration 2: need to repeat for 0003888338 particles. (took 0.193367 sec)
find linkngb iteration 3: need to repeat for 0003724950 particles. (took 0.134563 sec)
find linkngb iteration 4: need to repeat for 0003323829 particles. (took 0.152396 sec)
find linkngb iteration 5: need to repeat for 0002781861 particles. (took 0.132597 sec)
find linkngb iteration 6: need to repeat for 0002023494 particles. (took 0.111654 sec)
find linkngb iteration 7: need to repeat for 0001276267 particles. (took 0.0830278 sec)
find linkngb iteration 8: need to repeat for 0000727565 particles. (took 0.0575361 sec)
find linkngb iteration 9: need to repeat for 0000390037 particles. (took 0.0368421 sec)
find linkngb iteration 10: need to repeat for 0000202545 particles. (took 0.0247889 sec)
find linkngb iteration 11: need to repeat for 0000102738 particles. (took 0.0177522 sec)
find linkngb iteration 12: need to repeat for 0000022328 particles. (took 0.0134091 sec)
find linkngb iteration 13: need to repeat for 0000000683 particles. (took 0.00776696 sec)
find linkngb iteration 14: need to repeat for 0000000226 particles. (took 0.000652075 sec)
find linkngb iteration 15: need to repeat for 0000000062 particles. (took 0.000438929 sec)
find linkngb iteration 16: need to repeat for 0000000018 particles. (took 0.000389099 sec)
find linkngb iteration 17: need to repeat for 0000000004 particles. (took 0.000355959 sec)
find_linkngb() took 1.26163 sec
Start finding nearest two (15660 particles on task=0)
find_nearesttwo() took 0.259915 sec (presently allocated=3068.55 MB)
parallel sort of densities done. took 0.0466828 sec
building distributed linked list. (presently allocated 3068.4 MB)
identification of primary candidates took 105.69 sec
adding background as candidate took 0.157833 sec
establishing of rank order took 32.784 sec  (p=4009900, grouplen=4009900) presently allocated 3068.4 MB

total number of subhalo candidates=17203

number of subhalo candidates that can be done independently=15286.
(Largest size is 2470, finding them took 0.00483918 sec)
particles are marked (took 21.4084)
independent subhalos are assembled on individual CPUs for unbinding (0.171047 sec, (presently allocated=3068.4 MB)
unbinding of independent ones took 0.0590041 sec
particles have returned to their original processor (0.239941 sec, presently allocated 3068.4 MB)

number of subhalo candidates that can be done independently=1751.
(Largest size is 14708, finding them took 1.04662 sec)
particles are marked (took 14.2346)
independent subhalos are assembled on individual CPUs for unbinding (0.171912 sec, (presently allocated=3068.4 MB)
unbinding of independent ones took 0.397768 sec
particles have returned to their original processor (0.242881 sec, presently allocated 3068.4 MB)

number of subhalo candidates that can be done independently=150.
(Largest size is 63643, finding them took 1.09427 sec)
particles are marked (took 12.8061)
independent subhalos are assembled on individual CPUs for unbinding (0.178052 sec, (presently allocated=3068.4 MB)
unbinding of independent ones took 1.63674 sec
particles have returned to their original processor (0.256138 sec, presently allocated 3068.4 MB)

number of subhalo candidates that can be done independently=15.
(Largest size is 158006, finding them took 0.855057 sec)
particles are marked (took 13.4268)
independent subhalos are assembled on individual CPUs for unbinding (0.184821 sec, (presently allocated=3068.4 MB)
unbinding of independent ones took 4.43026 sec
particles have returned to their original processor (0.269959 sec, presently allocated 3068.4 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 4009900, finding them took 0.564803 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=4009900 ... maximum alloacted 3068.46 MB
took 70.8845 sec

the collective unbinding of remaining halos took 78.4514 sec

found 1532 bound substructures in FoF group of length 4009900
determination of parent subhalo took 0.037847 sec (presently allocated 3068.46 MB)
determining substructure properties took 86.8897 sec (presently allocated 3068.46 MB)

collectively doing halo 6, num=21
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2560.75 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2620.3 MB)
Before=147393
After=168193
NTopleaves= 147169  NTopnodes=168193 (space for 244687)
gravity work-load balance=1.00053   memory-balance=1.00053   SPH work-load balance=0
iter=0 exchange of 0002651612 particles (ret=0)
domain decomposition done. (took 0.965454 sec)
Freed 3.50162 MByte in top-level domain structure
coldomain_Decomposition() took 1.43734 sec  (presently allocated=3067.79 MB)
force_treebuild() took 1.87163 sec (presently allocated=3067.79 MB)
Start find_linkngb (10392 particles on task=0)
find linkngb iteration 1: need to repeat for 0002657137 particles. (took 0.184355 sec)
find linkngb iteration 2: need to repeat for 0002614787 particles. (took 0.124644 sec)
find linkngb iteration 3: need to repeat for 0002509522 particles. (took 0.0872259 sec)
find linkngb iteration 4: need to repeat for 0002252371 particles. (took 0.097965 sec)
find linkngb iteration 5: need to repeat for 0001891331 particles. (took 0.088527 sec)
find linkngb iteration 6: need to repeat for 0001377753 particles. (took 0.074069 sec)
find linkngb iteration 7: need to repeat for 0000869669 particles. (took 0.056901 sec)
find linkngb iteration 8: need to repeat for 0000495735 particles. (took 0.0397849 sec)
find linkngb iteration 9: need to repeat for 0000265875 particles. (took 0.0269361 sec)
find linkngb iteration 10: need to repeat for 0000137852 particles. (took 0.0187061 sec)
find linkngb iteration 11: need to repeat for 0000070132 particles. (took 0.0142481 sec)
find linkngb iteration 12: need to repeat for 0000015304 particles. (took 0.0114541 sec)
find linkngb iteration 13: need to repeat for 0000000546 particles. (took 0.00717187 sec)
find linkngb iteration 14: need to repeat for 0000000188 particles. (took 0.000554085 sec)
find linkngb iteration 15: need to repeat for 0000000058 particles. (took 0.000377178 sec)
find linkngb iteration 16: need to repeat for 0000000023 particles. (took 0.000329018 sec)
find linkngb iteration 17: need to repeat for 0000000011 particles. (took 0.000319004 sec)
find linkngb iteration 18: need to repeat for 0000000003 particles. (took 0.000350952 sec)
find_linkngb() took 0.834749 sec
Start finding nearest two (10392 particles on task=0)
find_nearesttwo() took 0.168372 sec (presently allocated=3068.59 MB)
parallel sort of densities done. took 0.045557 sec
building distributed linked list. (presently allocated 3068.48 MB)
identification of primary candidates took 76.7829 sec
adding background as candidate took 0.157485 sec
establishing of rank order took 21.6905 sec  (p=2661764, grouplen=2661764) presently allocated 3068.48 MB

total number of subhalo candidates=10775

number of subhalo candidates that can be done independently=9749.
(Largest size is 2731, finding them took 0.003268 sec)
particles are marked (took 13.5485)
independent subhalos are assembled on individual CPUs for unbinding (0.167138 sec, (presently allocated=3068.48 MB)
unbinding of independent ones took 0.037266 sec
particles have returned to their original processor (0.236334 sec, presently allocated 3068.48 MB)

number of subhalo candidates that can be done independently=961.
(Largest size is 9323, finding them took 1.05244 sec)
particles are marked (took 9.27822)
independent subhalos are assembled on individual CPUs for unbinding (0.171541 sec, (presently allocated=3068.48 MB)
unbinding of independent ones took 0.209726 sec
particles have returned to their original processor (0.241181 sec, presently allocated 3068.48 MB)

number of subhalo candidates that can be done independently=59.
(Largest size is 41250, finding them took 1.03833 sec)
particles are marked (took 7.79534)
independent subhalos are assembled on individual CPUs for unbinding (0.169084 sec, (presently allocated=3068.48 MB)
unbinding of independent ones took 0.927322 sec
particles have returned to their original processor (0.247005 sec, presently allocated 3068.48 MB)

number of subhalo candidates that can be done independently=3.
(Largest size is 200378, finding them took 0.816608 sec)
particles are marked (took 6.32907)
independent subhalos are assembled on individual CPUs for unbinding (0.173204 sec, (presently allocated=3068.48 MB)
unbinding of independent ones took 1.16443 sec
particles have returned to their original processor (0.259102 sec, presently allocated 3068.48 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 200378, finding them took 0.559295 sec)
too few, I do the rest of 3 collectively

collective unbinding of nr=0 (3) of length=200378 ... maximum alloacted 3068.52 MB
took 6.30433 sec
collective unbinding of nr=1 (3) of length=649083 ... maximum alloacted 3068.52 MB
took 18.1829 sec
collective unbinding of nr=2 (3) of length=2661764 ... maximum alloacted 3068.52 MB
took 49.6851 sec

the collective unbinding of remaining halos took 78.8063 sec

found 959 bound substructures in FoF group of length 2661764
determination of parent subhalo took 0.0373411 sec (presently allocated 3068.52 MB)
determining substructure properties took 64.751 sec (presently allocated 3068.52 MB)
processing of collective halos took 4033.47 sec
sort of local particles()() took 0.609323 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 530.081 sec

Task 179: testing particles ...
Task 191: testing particles ...
Task 252: testing particles ...
Task 196: testing particles ...
Task 216: testing particles ...
Task 209: testing particles ...
Task 168: testing particles ...
Task 4: testing particles ...
Task 238: testing particles ...
Task 176: testing particles ...
Task 165: testing particles ...
Task 156: testing particles ...
Task 201: testing particles ...
Task 226: testing particles ...
Task 2: testing particles ...
Task 174: testing particles ...
Task 133: testing particles ...
Task 235: testing particles ...
Task 229: testing particles ...
Task 207: testing particles ...
Task 224: testing particles ...
Task 170: testing particles ...
Task 246: testing particles ...
Task 241: testing particles ...
Task 210: testing particles ...
Task 187: testing particles ...
Task 215: testing particles ...
Task 195: testing particles ...
Task 219: testing particles ...
Task 106: testing particles ...
Task 232: testing particles ...
Task 125: testing particles ...
Task 169: testing particles ...
Task 236: testing particles ...
Task 126: testing particles ...
Task 137: testing particles ...
Task 194: testing particles ...
Task 248: testing particles ...
Task 244: testing particles ...
Task 144: testing particles ...
Task 3: testing particles ...
Task 242: testing particles ...
Task 164: testing particles ...
Task 178: testing particles ...
Task 150: testing particles ...
Task 134: testing particles ...
Task 181: testing particles ...
Task 146: testing particles ...
Task 115: testing particles ...
Task 225: testing particles ...
Task 114: testing particles ...
Task 5: testing particles ...
Task 135: testing particles ...
Task 180: testing particles ...
Task 200: testing particles ...
Task 155: testing particles ...
Task 206: testing particles ...
Task 253: testing particles ...
Task 152: testing particles ...
Task 101: testing particles ...
Task 1: testing particles ...
Task 148: testing particles ...
Task 184: testing particles ...
Task 140: testing particles ...
Task 213: testing particles ...
Task 198: testing particles ...
Task 182: testing particles ...
Task 251: testing particles ...
Task 250: testing particles ...
Task 105: testing particles ...
Task 138: testing particles ...
Task 123: testing particles ...
Task 233: testing particles ...
Task 222: testing particles ...
Task 247: testing particles ...
Task 158: testing particles ...
Task 185: testing particles ...
Task 228: testing particles ...
Task 192: testing particles ...
Task 186: testing particles ...
Task 227: testing particles ...
Task 157: testing particles ...
Task 230: testing particles ...
Task 102: testing particles ...
Task 234: testing particles ...
Task 136: testing particles ...
Task 171: testing particles ...
Task 202: testing particles ...
Task 203: testing particles ...
Task 255: testing particles ...
Task 214: testing particles ...
Task 189: testing particles ...
Task 212: testing particles ...
Task 205: testing particles ...
Task 208: testing particles ...
unsorting of local particles()() took 0.556835 sec
Task 0: testing particles ...
Task 92: testing particles ...
Task 190: testing particles ...
Task 107: testing particles ...
Task 90: testing particles ...
Task 159: testing particles ...
Task 177: testing particles ...
Task 113: testing particles ...
Task 83: testing particles ...
Task 221: testing particles ...
Task 81: testing particles ...
Task 110: testing particles ...
Task 76: testing particles ...
Task 220: testing particles ...
Task 218: testing particles ...
Task 153: testing particles ...
Task 149: testing particles ...
Task 223: testing particles ...
Task 163: testing particles ...
Task 211: testing particles ...
Task 160: testing particles ...
Task 142: testing particles ...
Task 175: testing particles ...
Task 132: testing particles ...
Task 245: testing particles ...
Task 72: testing particles ...
Task 89: testing particles ...
Task 166: testing particles ...
Task 237: testing particles ...
Task 254: testing particles ...
Task 96: testing particles ...
Task 249: testing particles ...
Task 240: testing particles ...
Task 127: testing particles ...
Task 85: testing particles ...
Task 108: testing particles ...
Task 118: testing particles ...
Task 199: testing particles ...
Task 94: testing particles ...
Task 172: testing particles ...
Task 103: testing particles ...
Task 231: testing particles ...
Task 167: testing particles ...
Task 188: testing particles ...
Task 66: testing particles ...
Task 147: testing particles ...
Task 143: testing particles ...
Task 116: testing particles ...
Task 131: testing particles ...
Task 73: testing particles ...
Task 97: testing particles ...
Task 120: testing particles ...
Task 162: testing particles ...
Task 69: testing particles ...
Task 124: testing particles ...
Task 95: testing particles ...
Task 193: testing particles ...
Task 112: testing particles ...
Task 161: testing particles ...
Task 70: testing particles ...
Task 63: testing particles ...
Task 145: testing particles ...
Task 104: testing particles ...
Task 239: testing particles ...
Task 243: testing particles ...
Task 141: testing particles ...
Task 117: testing particles ...
Task 197: testing particles ...
Task 91: testing particles ...
Task 78: testing particles ...
Task 173: testing particles ...
Task 99: testing particles ...
Task 59: testing particles ...
Task 93: testing particles ...
Task 68: testing particles ...
Task 109: testing particles ...
Task 55: testing particles ...
Task 100: testing particles ...
Task 128: testing particles ...
Task 119: testing particles ...
Task 54: testing particles ...
Task 183: testing particles ...
Task 130: testing particles ...
Task 154: testing particles ...
Task 80: testing particles ...
Task 74: testing particles ...
Task 139: testing particles ...
Task 111: testing particles ...
Task 84: testing particles ...
Task 77: testing particles ...
Task 88: testing particles ...
Task 217: testing particles ...
Task 52: testing particles ...
Task 204: testing particles ...
Task 86: testing particles ...
Task 98: testing particles ...
Task 60: testing particles ...
Task 151: testing particles ...
Task 121: testing particles ...
Task 87: testing particles ...
Task 129: testing particles ...
Task 75: testing particles ...
Task 57: testing particles ...
Task 53: testing particles ...
Task 67: testing particles ...
Task 122: testing particles ...
Task 79: testing particles ...
Task 56: testing particles ...
Task 58: testing particles ...
Task 39: testing particles ...
Task 45: testing particles ...
Task 65: testing particles ...
Task 36: testing particles ...
Task 61: testing particles ...
Task 35: testing particles ...
Task 71: testing particles ...
Task 50: testing particles ...
Task 62: testing particles ...
Task 48: testing particles ...
Task 82: testing particles ...
Task 44: testing particles ...
Task 47: testing particles ...
Task 64: testing particles ...
Task 46: testing particles ...
Task 43: testing particles ...
Task 40: testing particles ...
Task 29: testing particles ...
Task 49: testing particles ...
Task 51: testing particles ...
Task 41: testing particles ...
Task 42: testing particles ...
Task 31: testing particles ...
Task 30: testing particles ...
Task 33: testing particles ...
Task 37: testing particles ...
Task 38: testing particles ...
Task 27: testing particles ...
Task 23: testing particles ...
Task 22: testing particles ...
Task 28: testing particles ...
Task 34: testing particles ...
Task 32: testing particles ...
Task 24: testing particles ...
Task 26: testing particles ...
Task 21: testing particles ...
Task 14: testing particles ...
Task 15: testing particles ...
Task 17: testing particles ...
Task 25: testing particles ...
Task 20: testing particles ...
Task 19: testing particles ...
Task 13: testing particles ...
Task 16: testing particles ...
Task 18: testing particles ...
Task 12: testing particles ...
Task 11: testing particles ...
Task 10: testing particles ...
Task 9: testing particles ...
Task 7: testing particles ...
Task 6: testing particles ...
Task 8: testing particles ...
subfind_exchange() (for return to original CPU)  took 3.49626 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2560.75 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2620.3 MB)
Before=186089
After=203977
NTopleaves= 178480  NTopnodes=203977 (space for 244687)
gravity work-load balance=1.00041   memory-balance=1.00041   SPH work-load balance=0
iter=0 exchange of 0273351336 particles (ret=0)
domain decomposition done. (took 3.93151 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.86356 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000161298 particles. (took 0.0296559 sec)
SO iteration 2: need to repeat for 0000161298 particles. (took 0.0226789 sec)
SO iteration 3: need to repeat for 0000161298 particles. (took 0.0228381 sec)
SO iteration 4: need to repeat for 0000161298 particles. (took 0.022927 sec)
SO iteration 5: need to repeat for 0000161298 particles. (took 0.023082 sec)
SO iteration 6: need to repeat for 0000161298 particles. (took 0.0228758 sec)
SO iteration 7: need to repeat for 0000161298 particles. (took 0.0229149 sec)
SO iteration 8: need to repeat for 0000161298 particles. (took 0.022804 sec)
SO iteration 9: need to repeat for 0000161298 particles. (took 0.022965 sec)
SO iteration 10: need to repeat for 0000161298 particles. (took 0.0229239 sec)
SO iteration 11: need to repeat for 0000161298 particles. (took 0.0229788 sec)
SO iteration 12: need to repeat for 0000161298 particles. (took 0.0228539 sec)
SO iteration 13: need to repeat for 0000161298 particles. (took 0.0228419 sec)
SO iteration 14: need to repeat for 0000161298 particles. (took 0.022943 sec)
SO iteration 15: need to repeat for 0000160784 particles. (took 0.0228951 sec)
SO iteration 16: need to repeat for 0000000509 particles. (took 0.022629 sec)
SO iteration 17: need to repeat for 0000000044 particles. (took 0.00103807 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000577211 sec)
SO iteration 1: need to repeat for 0000161298 particles. (took 0.023592 sec)
SO iteration 2: need to repeat for 0000161298 particles. (took 0.0220149 sec)
SO iteration 3: need to repeat for 0000161298 particles. (took 0.0217741 sec)
SO iteration 4: need to repeat for 0000161298 particles. (took 0.031472 sec)
SO iteration 5: need to repeat for 0000161298 particles. (took 0.0239012 sec)
SO iteration 6: need to repeat for 0000161298 particles. (took 0.039026 sec)
SO iteration 7: need to repeat for 0000161298 particles. (took 0.04566 sec)
SO iteration 8: need to repeat for 0000161298 particles. (took 0.0259061 sec)
SO iteration 9: need to repeat for 0000161298 particles. (took 0.021502 sec)
SO iteration 10: need to repeat for 0000161298 particles. (took 0.0210941 sec)
SO iteration 11: need to repeat for 0000161298 particles. (took 0.021173 sec)
SO iteration 12: need to repeat for 0000161298 particles. (took 0.0211639 sec)
SO iteration 13: need to repeat for 0000161298 particles. (took 0.0211799 sec)
SO iteration 14: need to repeat for 0000161298 particles. (took 0.0212681 sec)
SO iteration 15: need to repeat for 0000161187 particles. (took 0.021107 sec)
SO iteration 16: need to repeat for 0000021298 particles. (took 0.02123 sec)
SO iteration 17: need to repeat for 0000000342 particles. (took 0.00697994 sec)
SO iteration 18: need to repeat for 0000000055 particles. (took 0.000830173 sec)
SO iteration 1: need to repeat for 0000161298 particles. (took 0.0231709 sec)
SO iteration 2: need to repeat for 0000161298 particles. (took 0.020473 sec)
SO iteration 3: need to repeat for 0000161298 particles. (took 0.018909 sec)
SO iteration 4: need to repeat for 0000161298 particles. (took 0.0197589 sec)
SO iteration 5: need to repeat for 0000161298 particles. (took 0.0193121 sec)
SO iteration 6: need to repeat for 0000161298 particles. (took 0.0195479 sec)
SO iteration 7: need to repeat for 0000161298 particles. (took 0.019402 sec)
SO iteration 8: need to repeat for 0000161298 particles. (took 0.019413 sec)
SO iteration 9: need to repeat for 0000161298 particles. (took 0.0193501 sec)
SO iteration 10: need to repeat for 0000161298 particles. (took 0.0193429 sec)
SO iteration 11: need to repeat for 0000161298 particles. (took 0.0192931 sec)
SO iteration 12: need to repeat for 0000161298 particles. (took 0.01933 sec)
SO iteration 13: need to repeat for 0000161298 particles. (took 0.0194352 sec)
SO iteration 14: need to repeat for 0000161298 particles. (took 0.019347 sec)
SO iteration 15: need to repeat for 0000161293 particles. (took 0.019367 sec)
SO iteration 16: need to repeat for 0000161267 particles. (took 0.0193841 sec)
SO iteration 17: need to repeat for 0000035179 particles. (took 0.0193541 sec)
SO iteration 18: need to repeat for 0000000677 particles. (took 0.00984192 sec)
SO iteration 19: need to repeat for 0000000086 particles. (took 0.000910044 sec)
SO iteration 20: need to repeat for 0000000001 particles. (took 0.000568867 sec)
SO iteration 1: need to repeat for 0000161298 particles. (took 0.0231149 sec)
SO iteration 2: need to repeat for 0000161298 particles. (took 0.020632 sec)
SO iteration 3: need to repeat for 0000161298 particles. (took 0.021858 sec)
SO iteration 4: need to repeat for 0000161298 particles. (took 0.024574 sec)
SO iteration 5: need to repeat for 0000161298 particles. (took 0.0224779 sec)
SO iteration 6: need to repeat for 0000161298 particles. (took 0.0224891 sec)
SO iteration 7: need to repeat for 0000161298 particles. (took 0.022604 sec)
SO iteration 8: need to repeat for 0000161298 particles. (took 0.0226161 sec)
SO iteration 9: need to repeat for 0000161298 particles. (took 0.0225589 sec)
SO iteration 10: need to repeat for 0000161298 particles. (took 0.0225639 sec)
SO iteration 11: need to repeat for 0000161298 particles. (took 0.022553 sec)
SO iteration 12: need to repeat for 0000161298 particles. (took 0.02263 sec)
SO iteration 13: need to repeat for 0000161298 particles. (took 0.0230291 sec)
SO iteration 14: need to repeat for 0000161298 particles. (took 0.023875 sec)
SO iteration 15: need to repeat for 0000160961 particles. (took 0.0226212 sec)
SO iteration 16: need to repeat for 0000001319 particles. (took 0.0225329 sec)
SO iteration 17: need to repeat for 0000000089 particles. (took 0.00131989 sec)
SO iteration 18: need to repeat for 0000000006 particles. (took 0.000617981 sec)
SO iteration 1: need to repeat for 0000161298 particles. (took 0.023164 sec)
SO iteration 2: need to repeat for 0000161298 particles. (took 0.020597 sec)
SO iteration 3: need to repeat for 0000161298 particles. (took 0.021667 sec)
SO iteration 4: need to repeat for 0000161298 particles. (took 0.0216019 sec)
SO iteration 5: need to repeat for 0000161298 particles. (took 0.0216031 sec)
SO iteration 6: need to repeat for 0000161298 particles. (took 0.0215631 sec)
SO iteration 7: need to repeat for 0000161298 particles. (took 0.0215721 sec)
SO iteration 8: need to repeat for 0000161298 particles. (took 0.021641 sec)
SO iteration 9: need to repeat for 0000161298 particles. (took 0.0215111 sec)
SO iteration 10: need to repeat for 0000161298 particles. (took 0.0215602 sec)
SO iteration 11: need to repeat for 0000161298 particles. (took 0.021744 sec)
SO iteration 12: need to repeat for 0000161298 particles. (took 0.0214851 sec)
SO iteration 13: need to repeat for 0000161298 particles. (took 0.0217519 sec)
SO iteration 14: need to repeat for 0000161298 particles. (took 0.0215909 sec)
SO iteration 15: need to repeat for 0000161134 particles. (took 0.0214739 sec)
SO iteration 16: need to repeat for 0000009151 particles. (took 0.021441 sec)
SO iteration 17: need to repeat for 0000000214 particles. (took 0.004076 sec)
SO iteration 18: need to repeat for 0000000032 particles. (took 0.000691175 sec)
SO iteration 1: need to repeat for 0000161298 particles. (took 0.0232191 sec)
SO iteration 2: need to repeat for 0000161298 particles. (took 0.020442 sec)
SO iteration 3: need to repeat for 0000161298 particles. (took 0.0197361 sec)
SO iteration 4: need to repeat for 0000161298 particles. (took 0.019994 sec)
SO iteration 5: need to repeat for 0000161298 particles. (took 0.019979 sec)
SO iteration 6: need to repeat for 0000161298 particles. (took 0.0205369 sec)
SO iteration 7: need to repeat for 0000161298 particles. (took 0.020462 sec)
SO iteration 8: need to repeat for 0000161298 particles. (took 0.020128 sec)
SO iteration 9: need to repeat for 0000161298 particles. (took 0.020045 sec)
SO iteration 10: need to repeat for 0000161298 particles. (took 0.0201559 sec)
SO iteration 11: need to repeat for 0000161298 particles. (took 0.0201652 sec)
SO iteration 12: need to repeat for 0000161298 particles. (took 0.0200191 sec)
SO iteration 13: need to repeat for 0000161298 particles. (took 0.020117 sec)
SO iteration 14: need to repeat for 0000161298 particles. (took 0.020519 sec)
SO iteration 15: need to repeat for 0000161268 particles. (took 0.0203888 sec)
SO iteration 16: need to repeat for 0000161141 particles. (took 0.0201409 sec)
SO iteration 17: need to repeat for 0000002038 particles. (took 0.0202069 sec)
SO iteration 18: need to repeat for 0000000170 particles. (took 0.00166988 sec)
SO iteration 19: need to repeat for 0000000006 particles. (took 0.000627041 sec)
SO iteration 1: need to repeat for 0000161298 particles. (took 0.0231891 sec)
SO iteration 2: need to repeat for 0000161298 particles. (took 0.0207028 sec)
SO iteration 3: need to repeat for 0000161298 particles. (took 0.0189638 sec)
SO iteration 4: need to repeat for 0000161298 particles. (took 0.018625 sec)
SO iteration 5: need to repeat for 0000161298 particles. (took 0.018867 sec)
SO iteration 6: need to repeat for 0000161298 particles. (took 0.0188808 sec)
SO iteration 7: need to repeat for 0000161298 particles. (took 0.018995 sec)
SO iteration 8: need to repeat for 0000161298 particles. (took 0.0191898 sec)
SO iteration 9: need to repeat for 0000161298 particles. (took 0.0192711 sec)
SO iteration 10: need to repeat for 0000161298 particles. (took 0.0191638 sec)
SO iteration 11: need to repeat for 0000161298 particles. (took 0.0189612 sec)
SO iteration 12: need to repeat for 0000161298 particles. (took 0.018755 sec)
SO iteration 13: need to repeat for 0000161298 particles. (took 0.018743 sec)
SO iteration 14: need to repeat for 0000161298 particles. (took 0.0185952 sec)
SO iteration 15: need to repeat for 0000161296 particles. (took 0.018563 sec)
SO iteration 16: need to repeat for 0000161290 particles. (took 0.018774 sec)
SO iteration 17: need to repeat for 0000159061 particles. (took 0.0189531 sec)
SO iteration 18: need to repeat for 0000006828 particles. (took 0.018908 sec)
SO iteration 19: need to repeat for 0000000245 particles. (took 0.00265884 sec)
SO iteration 20: need to repeat for 0000000013 particles. (took 0.000674009 sec)
determining spherical overdensity masses took 2.55226 sec
finding spherical overdensity particles took 0.549156 sec
determining contamination of halos took 0.304912 sec
Global sort of Groups took 0.169617 sec
Global sort of SubGroups took 0.779779 sec
Global sort of IDs took 0.531695 sec
Writing block 0 (GLEN), n=769, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3076d
Writing block 1 (GOFF), n=769, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3076d
Writing block 2 (MTOT), n=769, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3076d
Writing block 3 (GPOS), n=769, ptype=0, dtype=1, ndim=3, bpb=4 bytes=9228d
Writing block 4 (MMEA), n=769, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3076d
Writing block 5 (RMEA), n=769, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3076d
Writing block 6 (MCRI), n=769, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3076d
Writing block 7 (RCRI), n=769, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3076d
Writing block 8 (MTOP), n=769, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3076d
Writing block 9 (RTOP), n=769, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3076d
Writing block 17 (NCON), n=769, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3076d
Writing block 18 (MCON), n=769, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3076d
Writing block 22 (NSUB), n=769, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3076d
Writing block 23 (FSUB), n=769, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3076d
Writing block 24 (SLEN), n=4205, ptype=1, dtype=0, ndim=1, bpb=4 bytes=16820d
Writing block 25 (SOFF), n=4205, ptype=1, dtype=0, ndim=1, bpb=4 bytes=16820d
Writing block 27 (MSUB), n=4205, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 28 (SPOS), n=4205, ptype=1, dtype=1, ndim=3, bpb=4 bytes=50460d
Writing block 29 (SVEL), n=4205, ptype=1, dtype=1, ndim=3, bpb=4 bytes=50460d
Writing block 30 (SCM ), n=4205, ptype=1, dtype=1, ndim=3, bpb=4 bytes=50460d
Writing block 33 (VMAX), n=4205, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 34 (RMAX), n=4205, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 35 (RHMS), n=4205, ptype=1, dtype=1, ndim=6, bpb=4 bytes=100920d
Writing block 36 (MTRH), n=4205, ptype=1, dtype=1, ndim=6, bpb=4 bytes=100920d
Writing block 37 (MBID), n=4205, ptype=1, dtype=2, ndim=1, bpb=8 bytes=33640d
Writing block 38 (GRNR), n=4205, ptype=1, dtype=0, ndim=1, bpb=4 bytes=16820d
Writing block 39 (SUBN), n=4205, ptype=1, dtype=0, ndim=1, bpb=4 bytes=16820d
Writing block 40 (SMST), n=4205, ptype=1, dtype=1, ndim=6, bpb=4 bytes=100920d
Writing block 53 (PID ), n=539909, ptype=2, dtype=2, ndim=1, bpb=8 bytes=4319272d
Writing block 54 (SLEN), n=4205, ptype=1, dtype=0, ndim=6, bpb=4 bytes=100920d
Writing block 55 (STEN), n=4205, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 56 (SKEN), n=4205, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 57 (SUEN), n=4205, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 58 (SUIT), n=4205, ptype=1, dtype=1, ndim=9, bpb=4 bytes=151380d
Writing block 59 (BHMA), n=4205, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 60 (BHMD), n=4205, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 61 (SVD ), n=4205, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 62 (SVDH), n=4205, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 63 (HMPR), n=4205, ptype=1, dtype=1, ndim=6, bpb=4 bytes=100920d
Writing block 64 (SSFR), n=4205, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 65 (SSA ), n=4205, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 66 (SSBZ), n=4205, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 67 (SSIM), n=4205, ptype=1, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 68 (SSPI), n=4205, ptype=4, dtype=1, ndim=3, bpb=4 bytes=50460d
Writing block 69 (GSPI), n=4205, ptype=1, dtype=1, ndim=3, bpb=4 bytes=50460d
Writing block 70 (FSPI), n=4205, ptype=5, dtype=1, ndim=3, bpb=4 bytes=50460d
Writing block 71 (SFM ), n=4205, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 72 (SFMT), n=4205, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 73 (SFME), n=4205, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 74 (SFAE), n=4205, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 75 (SFKE), n=4205, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 76 (SFTE), n=4205, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 77 (SMWP), n=4205, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 78 (SMM ), n=4205, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 79 (SMMS), n=4205, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 80 (SFZ ), n=4205, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 81 (SFZS), n=4205, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 82 (SSIA), n=4205, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 83 (SIAS), n=4205, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 84 (SMET), n=4205, ptype=5, dtype=1, ndim=9, bpb=4 bytes=151380d
Writing block 85 (SMTS), n=4205, ptype=5, dtype=1, ndim=9, bpb=4 bytes=151380d
Writing block 86 (MF1 ), n=4205, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 87 (MeF1), n=4205, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 88 (MF  ), n=4205, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 89 (MeF2), n=4205, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 90 (MFA ), n=4205, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 91 (MeFA), n=4205, ptype=5, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 92 (NSPI), n=4205, ptype=6, dtype=1, ndim=3, bpb=4 bytes=50460d
Writing block 93 (NFM ), n=4205, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 94 (NFMT), n=4205, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 95 (NFME), n=4205, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 96 (NFAE), n=4205, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 97 (NFKE), n=4205, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 98 (NFTE), n=4205, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 99 (SMWP), n=4205, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 100 (SMM ), n=4205, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 101 (SMMS), n=4205, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 102 (SSIA), n=4205, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 103 (SIAS), n=4205, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 104 (SMET), n=4205, ptype=6, dtype=1, ndim=9, bpb=4 bytes=151380d
Writing block 105 (SMTS), n=4205, ptype=6, dtype=1, ndim=9, bpb=4 bytes=151380d
Writing block 106 (MF1 ), n=4205, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 107 (MeF1), n=4205, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 108 (MF2 ), n=4205, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 109 (MeF2), n=4205, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 110 (MFA ), n=4205, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 111 (MeFA), n=4205, ptype=6, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 112 (SM  ), n=4205, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 113 (SFKE), n=4205, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 114 (SFAE), n=4205, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 115 (SMWP), n=4205, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 116 (SMM ), n=4205, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 117 (SMMS), n=4205, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 118 (SSIA), n=4205, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 119 (SIAS), n=4205, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 120 (SMET), n=4205, ptype=4, dtype=1, ndim=9, bpb=4 bytes=151380d
Writing block 121 (SMTS), n=4205, ptype=4, dtype=1, ndim=9, bpb=4 bytes=151380d
Writing block 122 (MF1 ), n=4205, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 123 (MeF1), n=4205, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 124 (MF2 ), n=4205, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 125 (MeF2), n=4205, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 126 (MFA ), n=4205, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 127 (MeFA), n=4205, ptype=4, dtype=1, ndim=1, bpb=4 bytes=16820d
Writing block 128 (MMe5), n=769, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3076d
Writing block 129 (RMe5), n=769, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3076d
Writing block 130 (MCr5), n=769, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3076d
Writing block 131 (RCr5), n=769, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3076d
Writing block 132 (MMe2), n=769, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3076d
Writing block 133 (RMe2), n=769, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3076d
Writing block 134 (MCr2), n=769, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3076d
Writing block 135 (RCr2), n=769, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3076d
Writing block 136 (MAPT), n=4205, ptype=7, dtype=1, ndim=60, bpb=4 bytes=1009200d
Writing block 137 (SAPT), n=4205, ptype=8, dtype=1, ndim=10, bpb=4 bytes=168200d
Writing block 138 (VAPT), n=4205, ptype=9, dtype=1, ndim=10, bpb=4 bytes=168200d
Writing block 139 (BEGY), n=539909, ptype=2, dtype=1, ndim=1, bpb=4 bytes=2159636d
Subgroup catalogues saved. took = 6.88338 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 6.806872e-01
 eagle_ph_key_ort: type= 2 timed by volker 5.574584e-02
 eagle_ph_key_ort: type= 3 timed by volker 5.127501e-02
 eagle_ph_key_ort: type= 4 timed by volker 5.127501e-02
 eagle_ph_key_ort: type= 5 timed by volker 5.127501e-02
 eagle_ph_key_ort: timing parallel sort = 7.913139e-01
 eagle_fetch_elements: we are using 1144819942 bytes of memory, FreeBytes= 1431024928

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 2585.27 Mbyte (on task=0), Smallest = 1317.86 Mbyte, Average = 1353.84 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9036    1202.9176  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5346    1227.4522  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8910    1268.3432  fof_fof()/fof.c/337
   0 2975 0             Group      1.0978    1269.4410  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1291.3062    2560.7473  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5210    2585.2683  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1229859 number of bytes = 393554880

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3676.94 Mbyte (on task=0), Smallest = 2409.38 Mbyte, Average = 2445.49 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9036    1202.9176  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5346    1227.4522  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8910    1268.3432  fof_fof()/fof.c/337
   0 2975 0             Group      1.0978    1269.4410  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1291.3062    2560.7473  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5210    2585.2683  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      4.6915    2589.9598  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      4.6915    2594.6514  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      4.6915    2599.3429  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    375.3232    2974.6661  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    375.3232    3349.9893  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    326.9470    3676.9363  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.469084e+00
 eagle_fetch_elements: we are using 1144819942 bytes of memory, FreeBytes= 1431024928
 eagle_fetch_elements: max_bytes= 504, max_elements= 1122372 number of bytes = 565675488
 eagle_ph_key_ort: timing parallel SphP exchange = 3.679037e-03
 eagle_fetch_elements: we are using 1144819942 bytes of memory, FreeBytes= 1431024928
 eagle_fetch_elements: max_bytes= 384, max_elements= 1467717 number of bytes = 563603328
 eagle_ph_key_ort: timing parallel MetP exchange = 4.780293e-04
 eagle_fetch_elements: we are using 1144819942 bytes of memory, FreeBytes= 1431024928
 eagle_fetch_elements: max_bytes= 256, max_elements= 2184770 number of bytes = 559301120
 eagle_ph_key_ort: timing parallel BHP exchange = 4.780293e-04
Sorting particle-data by peano-hilbert key took = 3.64341 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1144819942 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1229859 number of bytes= 393554880
 eagle_ph_restore: timing parallel P exchange = 2.339821e+00
 eagle_send_elements: we are using 1144819942 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1122372 number of bytes= 565675488
 eagle_ph_restore: timing parallel SphP exchange = 3.121853e-03
 eagle_send_elements: we are using 1144819942 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1467717 number of bytes= 563603328
 eagle_ph_restore: timing parallel MetP exchange = 7.610321e-04
 eagle_send_elements: we are using 1144819942 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 2184770 number of bytes= 559301120
 eagle_ph_restore: timing parallel BHP exchange = 6.589890e-04
Restoring original order after ph key sorting took = 2.36086 sec

finished writing particle file...

Finished with SUBFIND.  (total time=4728.56 sec)

Finished computing FoF groups.  (presently allocated=1202.92 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=179825
After=199561
NTopleaves= 174616  NTopnodes=199561 (space for 244687)
gravity work-load balance=1.00065   memory-balance=1.00065   SPH work-load balance=0
iter=0 exchange of 0273229291 particles (ret=0)
domain decomposition done. (took 3.91022 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.0657 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 16: endrun called with an error level of 124


task 16: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
task 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
task 128: endrun called with an error level of 124


task 128: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
task 160: endrun called with an error level of 124


task 160: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
task 176: endrun called with an error level of 124


task 176: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
task 192: endrun called with an error level of 124


task 192: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
Finished FOF, total time doing fof/subfind = 4780.8 s
task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
task 0: endrun called with an error level of 124


    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
task 0: endrun called with an error level of 124


    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.46 Mb (on task=112), Smallest =   62645.57 Mb (on task=0), Average =   62687.01 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1886.50 Mb (on task=0), Smallest =    1798.60 Mb (on task=112), Average =    1845.06 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16342.36 Mb (on task=0), Average =   16352.22 Mb
AllocMem:	 Largest =    1886.50 Mb (on task=0), Smallest =    1798.60 Mb (on task=112), Average =    1845.06 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_022_z000p247/snap_022_z000p247.0.hdf5' on task=0 (contains 17537385 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  17121757  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     22140  (tot=     0000303834) masstab=0
Type 3 (bulge):   393488  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.814267

Setting next time for line of sight file to Time_next= 0.803424

Setting next time for snipshot file to Time_next= 0.810044

Setting next time for fof output to Time_next= 0.810044
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.15956 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=194369
After=198273
NTopleaves= 173489  NTopnodes=198273 (space for 244687)
gravity work-load balance=1.00036   memory-balance=1.00036   SPH work-load balance=0
iter=0 exchange of 0273204203 particles (ret=0)
domain decomposition done. (took 10.9876 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.12466 MByte in top-level domain structure

Allocated 503.181 MByte for BH-tree, and 0.661808 Mbyte for top-leaves.  (presently allocted 1706.69 MB)

Begin Ngb-tree construction.
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1752.86 Mbyte (on task=228), Smallest = 1752.82 Mbyte, Average = 1752.86 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 228 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
 228 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
 228 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
 228 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
 228 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
 228 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
 228 2972 0          TopNodes      9.8326    1202.8476  domain_allocate()/domain.c/570
 228 2973 0   DomainNodeIndex      0.6618    1203.5094  force_treeallocate()/forcetree.c/4800
 228 2974 0        Nodes_base    258.4464    1461.9558  force_treeallocate()/forcetree.c/4803
 228 2975 0     Extnodes_base    215.3720    1677.3279  force_treeallocate()/forcetree.c/4811
 228 2976 0          Nextnode     15.0596    1692.3874  force_treeallocate()/forcetree.c/4820
 228 2977 0            Father     14.3032    1706.6906  force_treeallocate()/forcetree.c/4827
 228 2978 0           Ngblist      4.0881    1710.7787  density()/density.c/690
 228 2979 0              Left      8.1762    1718.9550  density()/density.c/692
 228 2980 0             Right      8.1762    1727.1312  density()/density.c/693
 228 2981 0    DataIndexTable      7.0175    1734.1488  density()/density.c/738
 228 2982 0      DataNodeList     18.7134    1752.8622  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.211.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.271.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.69 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=180729
After=200385
NTopleaves= 175337  NTopnodes=200385 (space for 244687)
gravity work-load balance=1.00056   memory-balance=1.00056   SPH work-load balance=0
iter=0 exchange of 0272938525 particles (ret=0)
domain decomposition done. (took 3.85164 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.02798 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1202.95 MB)
Tree construction.

Start linking particles (presently allocated=1756.23 MB)
links on local processor done (took 7.76205 sec).
Marked=0063798722 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1857.83 MB) 
have done 0000990159 cross links (processed 0063798722, took 5.33037 sec)
have done 0000437417 cross links (processed 0050326167, took 5.02732 sec)
have done 0000312378 cross links (processed 0041977852, took 5.03825 sec)
have done 0000217727 cross links (processed 0031229757, took 3.82673 sec)
have done 0000150974 cross links (processed 0023938650, took 3.442 sec)
have done 0000100165 cross links (processed 0015222565, took 4.39144 sec)
have done 0000061849 cross links (processed 0006929113, took 2.89871 sec)
have done 0000032231 cross links (processed 0001829537, took 1.21858 sec)
have done 0000014656 cross links (processed 0000508711, took 0.289644 sec)
have done 0000005836 cross links (processed 0000203023, took 0.570491 sec)
have done 0000002349 cross links (processed 0000043754, took 0.070843 sec)
have done 0000000948 cross links (processed 0000012967, took 0.0459089 sec)
have done 0000000397 cross links (processed 0000005027, took 0.0456209 sec)
have done 0000000168 cross links (processed 0000001952, took 0.0449202 sec)
have done 0000000061 cross links (processed 0000000827, took 0.044729 sec)
have done 0000000039 cross links (processed 0000000499, took 0.0448279 sec)
have done 0000000023 cross links (processed 0000000363, took 0.045177 sec)
have done 0000000017 cross links (processed 0000000557, took 0.0451901 sec)
have done 0000000016 cross links (processed 0000000530, took 0.045264 sec)
have done 0000000015 cross links (processed 0000000518, took 0.0453861 sec)
have done 0000000014 cross links (processed 0000000514, took 0.0454018 sec)
have done 0000000007 cross links (processed 0000000379, took 0.045326 sec)
have done 0000000004 cross links (processed 0000000030, took 0.0448141 sec)
have done 0000000000 cross links (processed 0000000015, took 0.0449879 sec)
Local groups found.

group finding took = 40.5712 sec
Start finding nearest dm-particle (presently allocated=1756.23 MB)
still finding nearest... (presently allocated=1845.68 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.110322 sec
compiling local group data and catalogue took = 0.609513 sec

Total number of groups with at least 32 particles: 194345
Largest group has 12118518 particles.
Total number of particles in groups: 0143297155

group properties are now allocated.. (presently allocated=1269.52 MB)
computation of group properties took = 0.0751851 sec
start global sorting of group catalogues number 22
LargestGroup = 9539.324203; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.051383 sec
Group catalogues globally sorted. took = 0.856219 sec
starting saving of group catalogue number 22
data//groups_022_z000p247
Group catalogues number 22 saved. took = 2.45765 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.710348 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.281691 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.705547 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0192025906 particles. (took 20.0012 sec)
ngb iteration 2: need to repeat for 0149011021 particles. (took 9.89471 sec)
ngb iteration 3: need to repeat for 0130218435 particles. (took 7.26327 sec)
ngb iteration 4: need to repeat for 0118191768 particles. (took 5.88264 sec)
ngb iteration 5: need to repeat for 0105486973 particles. (took 5.11408 sec)
ngb iteration 6: need to repeat for 0087932773 particles. (took 4.49216 sec)
ngb iteration 7: need to repeat for 0066378263 particles. (took 3.84249 sec)
ngb iteration 8: need to repeat for 0045532597 particles. (took 3.08847 sec)
ngb iteration 9: need to repeat for 0028984780 particles. (took 2.27666 sec)
ngb iteration 10: need to repeat for 0017535881 particles. (took 1.60785 sec)
ngb iteration 11: need to repeat for 0010281323 particles. (took 1.01582 sec)
ngb iteration 12: need to repeat for 0005930023 particles. (took 0.620561 sec)
ngb iteration 13: need to repeat for 0003403358 particles. (took 0.38863 sec)
ngb iteration 14: need to repeat for 0001855486 particles. (took 0.254949 sec)
ngb iteration 15: need to repeat for 0000880464 particles. (took 0.170643 sec)
ngb iteration 16: need to repeat for 0000452610 particles. (took 0.105602 sec)
ngb iteration 17: need to repeat for 0000243057 particles. (took 0.076431 sec)
ngb iteration 18: need to repeat for 0000132734 particles. (took 0.0614541 sec)
ngb iteration 19: need to repeat for 0000072300 particles. (took 0.052937 sec)
ngb iteration 20: need to repeat for 0000038721 particles. (took 0.0481741 sec)
ngb iteration 21: need to repeat for 0000019985 particles. (took 0.0453348 sec)
ngb iteration 22: need to repeat for 0000010092 particles. (took 0.043782 sec)
ngb iteration 23: need to repeat for 0000004846 particles. (took 0.042093 sec)
ngb iteration 24: need to repeat for 0000002228 particles. (took 0.0412989 sec)
ngb iteration 25: need to repeat for 0000000953 particles. (took 0.0408471 sec)
ngb iteration 26: need to repeat for 0000000371 particles. (took 0.0405631 sec)
ngb iteration 27: need to repeat for 0000000153 particles. (took 0.0404179 sec)
ngb iteration 28: need to repeat for 0000000052 particles. (took 0.0405681 sec)
ngb iteration 29: need to repeat for 0000000015 particles. (took 0.0402591 sec)
ngb iteration 30: need to repeat for 0000000003 particles. (took 0.0404668 sec)
final operations ... 
density and smoothing length for species 1 took 67.0388 sec
Tree construction.
tree build took 0.714727 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.283175 sec
Tree construction.
tree build took 0.716641 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.283162 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.16562 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 2.04815 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.707286 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.186765 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 2.07279 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.168158 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 2.026 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.972694 sec
saving densities took 2.49262 sec

Number of FOF halos treated with collective SubFind code = 6
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 194339 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 21615 - 62795299 

subfind_exchange()() took 1.68916 sec

collectively doing halo 1, num=22
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2610.62 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2670.17 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 2670.18 Mbyte (on task=0), Smallest = 1352.25 Mbyte, Average = 1389.76 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9373    1202.9513  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5310    1227.4823  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8850    1268.3674  fof_fof()/fof.c/337
   0 2975 0             Group      1.1507    1269.5181  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1341.1016    2610.6197  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    2622.8790  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    2651.4854  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    2652.4306  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    2653.3640  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    2654.2974  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    2655.2308  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    2656.1681  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    2657.1054  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    2670.1731  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=132073
After=168457
NTopleaves= 147400  NTopnodes=168457 (space for 244687)
gravity work-load balance=1.00061   memory-balance=1.00061   SPH work-load balance=0
iter=0 exchange of 0012076517 particles (ret=0)
domain decomposition done. (took 1.08946 sec)
Freed 3.48953 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 3117.73 Mbyte (on task=0), Smallest = 1799.8 Mbyte, Average = 1837.31 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9373    1202.9513  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5310    1227.4823  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8850    1268.3674  fof_fof()/fof.c/337
   0 2975 0             Group      1.1507    1269.5181  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1341.1016    2610.6197  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.3540    2619.0987  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5623    2619.6610  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    255.7167    2875.3777  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base    213.0972    3088.4749  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9458    3103.4207  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    3117.7239  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.59157 sec  (presently allocated=3117.72 MB)
force_treebuild() took 1.96712 sec (presently allocated=3117.72 MB)
Start find_linkngb (47190 particles on task=0)
find linkngb iteration 1: need to repeat for 0011520201 particles. (took 0.953281 sec)
find linkngb iteration 2: need to repeat for 0010538122 particles. (took 0.673131 sec)
find linkngb iteration 3: need to repeat for 0010049742 particles. (took 0.455171 sec)
find linkngb iteration 4: need to repeat for 0008789856 particles. (took 0.515203 sec)
find linkngb iteration 5: need to repeat for 0007300647 particles. (took 0.439075 sec)
find linkngb iteration 6: need to repeat for 0005286918 particles. (took 0.361711 sec)
find linkngb iteration 7: need to repeat for 0003326337 particles. (took 0.254334 sec)
find linkngb iteration 8: need to repeat for 0001891029 particles. (took 0.161094 sec)
find linkngb iteration 9: need to repeat for 0001013176 particles. (took 0.0990529 sec)
find linkngb iteration 10: need to repeat for 0000524794 particles. (took 0.059623 sec)
find linkngb iteration 11: need to repeat for 0000267333 particles. (took 0.036948 sec)
find linkngb iteration 12: need to repeat for 0000056428 particles. (took 0.023591 sec)
find linkngb iteration 13: need to repeat for 0000001157 particles. (took 0.010916 sec)
find linkngb iteration 14: need to repeat for 0000000380 particles. (took 0.000880957 sec)
find linkngb iteration 15: need to repeat for 0000000131 particles. (took 0.000551939 sec)
find linkngb iteration 16: need to repeat for 0000000048 particles. (took 0.000490904 sec)
find linkngb iteration 17: need to repeat for 0000000015 particles. (took 0.000478029 sec)
find linkngb iteration 18: need to repeat for 0000000002 particles. (took 0.000447989 sec)
find_linkngb() took 4.0474 sec
Start finding nearest two (47190 particles on task=0)
find_nearesttwo() took 0.747351 sec (presently allocated=3121.32 MB)
parallel sort of densities done. took 0.0745399 sec
building distributed linked list. (presently allocated 3120.86 MB)
identification of primary candidates took 304.467 sec
adding background as candidate took 0.158952 sec
establishing of rank order took 93.962 sec  (p=12118518, grouplen=12118518) presently allocated 3120.86 MB

total number of subhalo candidates=58352

number of subhalo candidates that can be done independently=51229.
(Largest size is 4911, finding them took 0.015826 sec)
particles are marked (took 70.2831)
independent subhalos are assembled on individual CPUs for unbinding (0.219528 sec, (presently allocated=3120.86 MB)
unbinding of independent ones took 0.113359 sec
particles have returned to their original processor (0.285597 sec, presently allocated 3120.86 MB)

number of subhalo candidates that can be done independently=6595.
(Largest size is 38680, finding them took 1.15359 sec)
particles are marked (took 46.323)
independent subhalos are assembled on individual CPUs for unbinding (0.198466 sec, (presently allocated=3120.86 MB)
unbinding of independent ones took 1.19314 sec
particles have returned to their original processor (0.271353 sec, presently allocated 3120.86 MB)

number of subhalo candidates that can be done independently=499.
(Largest size is 34814, finding them took 1.13976 sec)
particles are marked (took 35.3694)
independent subhalos are assembled on individual CPUs for unbinding (0.185386 sec, (presently allocated=3120.86 MB)
unbinding of independent ones took 1.08688 sec
particles have returned to their original processor (0.261598 sec, presently allocated 3120.86 MB)

number of subhalo candidates that can be done independently=25.
(Largest size is 827516, finding them took 0.932755 sec)
particles are marked (took 30.9558)
independent subhalos are assembled on individual CPUs for unbinding (0.184393 sec, (presently allocated=3120.86 MB)
unbinding of independent ones took 3.75803 sec
particles have returned to their original processor (0.258631 sec, presently allocated 3120.86 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 827516, finding them took 0.605824 sec)
too few, I do the rest of 4 collectively

collective unbinding of nr=0 (4) of length=827516 ... maximum alloacted 3121.04 MB
took 13.1162 sec
collective unbinding of nr=1 (4) of length=275653 ... maximum alloacted 3121.04 MB
took 6.83466 sec
collective unbinding of nr=2 (4) of length=298724 ... maximum alloacted 3121.04 MB
took 5.82133 sec
collective unbinding of nr=3 (4) of length=12118518 ... maximum alloacted 3121.04 MB
took 202.106 sec

the collective unbinding of remaining halos took 253.34 sec

found 3590 bound substructures in FoF group of length 12118518
determination of parent subhalo took 0.0541141 sec (presently allocated 3121.04 MB)
determining substructure properties took 242.236 sec (presently allocated 3121.04 MB)

collectively doing halo 2, num=22
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2610.62 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2670.17 MB)
Before=130705
After=164289
NTopleaves= 143753  NTopnodes=164289 (space for 244687)
gravity work-load balance=1.00049   memory-balance=1.00049   SPH work-load balance=0
iter=0 exchange of 0010669287 particles (ret=0)
domain decomposition done. (took 1.09563 sec)
Freed 3.68033 MByte in top-level domain structure
coldomain_Decomposition() took 1.5875 sec  (presently allocated=3116.79 MB)
force_treebuild() took 1.94488 sec (presently allocated=3116.79 MB)
Start find_linkngb (41908 particles on task=0)
find linkngb iteration 1: need to repeat for 0010292567 particles. (took 0.844324 sec)
find linkngb iteration 2: need to repeat for 0009482613 particles. (took 0.59221 sec)
find linkngb iteration 3: need to repeat for 0009043619 particles. (took 0.401443 sec)
find linkngb iteration 4: need to repeat for 0007927587 particles. (took 0.455497 sec)
find linkngb iteration 5: need to repeat for 0006585843 particles. (took 0.387713 sec)
find linkngb iteration 6: need to repeat for 0004768822 particles. (took 0.332415 sec)
find linkngb iteration 7: need to repeat for 0002997669 particles. (took 0.22572 sec)
find linkngb iteration 8: need to repeat for 0001704220 particles. (took 0.14313 sec)
find linkngb iteration 9: need to repeat for 0000911916 particles. (took 0.089632 sec)
find linkngb iteration 10: need to repeat for 0000472409 particles. (took 0.05353 sec)
find linkngb iteration 11: need to repeat for 0000239601 particles. (took 0.0332851 sec)
find linkngb iteration 12: need to repeat for 0000050974 particles. (took 0.022315 sec)
find linkngb iteration 13: need to repeat for 0000001148 particles. (took 0.0104129 sec)
find linkngb iteration 14: need to repeat for 0000000367 particles. (took 0.000850916 sec)
find linkngb iteration 15: need to repeat for 0000000120 particles. (took 0.000538111 sec)
find linkngb iteration 16: need to repeat for 0000000042 particles. (took 0.000458002 sec)
find linkngb iteration 17: need to repeat for 0000000007 particles. (took 0.000433922 sec)
find_linkngb() took 3.59496 sec
Start finding nearest two (41908 particles on task=0)
find_nearesttwo() took 0.66857 sec (presently allocated=3119.99 MB)
parallel sort of densities done. took 0.070735 sec
building distributed linked list. (presently allocated 3119.57 MB)
identification of primary candidates took 263.523 sec
adding background as candidate took 0.159712 sec
establishing of rank order took 82.6112 sec  (p=10723417, grouplen=10723417) presently allocated 3119.57 MB

total number of subhalo candidates=52133

number of subhalo candidates that can be done independently=45486.
(Largest size is 2866, finding them took 0.0140052 sec)
particles are marked (took 62.2839)
independent subhalos are assembled on individual CPUs for unbinding (0.21085 sec, (presently allocated=3119.57 MB)
unbinding of independent ones took 0.083334 sec
particles have returned to their original processor (0.279379 sec, presently allocated 3119.57 MB)

number of subhalo candidates that can be done independently=6079.
(Largest size is 18420, finding them took 1.13535 sec)
particles are marked (took 42.024)
independent subhalos are assembled on individual CPUs for unbinding (0.196595 sec, (presently allocated=3119.57 MB)
unbinding of independent ones took 0.4989 sec
particles have returned to their original processor (0.266302 sec, presently allocated 3119.57 MB)

number of subhalo candidates that can be done independently=520.
(Largest size is 139376, finding them took 1.12766 sec)
particles are marked (took 37.1538)
independent subhalos are assembled on individual CPUs for unbinding (0.197405 sec, (presently allocated=3119.57 MB)
unbinding of independent ones took 6.97788 sec
particles have returned to their original processor (0.273879 sec, presently allocated 3119.57 MB)

number of subhalo candidates that can be done independently=43.
(Largest size is 119275, finding them took 1.01381 sec)
particles are marked (took 29.0742)
independent subhalos are assembled on individual CPUs for unbinding (0.182982 sec, (presently allocated=3119.57 MB)
unbinding of independent ones took 3.38812 sec
particles have returned to their original processor (0.269253 sec, presently allocated 3119.57 MB)

number of subhalo candidates that can be done independently=4.
(Largest size is 9739, finding them took 0.607738 sec)
particles are marked (took 23.7753)
independent subhalos are assembled on individual CPUs for unbinding (0.167184 sec, (presently allocated=3119.57 MB)
unbinding of independent ones took 0.119275 sec
particles have returned to their original processor (0.239773 sec, presently allocated 3119.57 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 10723417, finding them took 0.543974 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=10723417 ... maximum alloacted 3119.73 MB
took 185.517 sec

the collective unbinding of remaining halos took 208.247 sec

found 3572 bound substructures in FoF group of length 10723417
determination of parent subhalo took 0.0488539 sec (presently allocated 3119.73 MB)
determining substructure properties took 212.164 sec (presently allocated 3119.73 MB)

collectively doing halo 3, num=22
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2610.62 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2670.17 MB)
Before=136129
After=166161
NTopleaves= 145391  NTopnodes=166161 (space for 244687)
gravity work-load balance=1.00056   memory-balance=1.00056   SPH work-load balance=0
iter=0 exchange of 0007078349 particles (ret=0)
domain decomposition done. (took 1.05124 sec)
Freed 3.59464 MByte in top-level domain structure
coldomain_Decomposition() took 1.5415 sec  (presently allocated=3117.21 MB)
force_treebuild() took 1.92543 sec (presently allocated=3117.21 MB)
Start find_linkngb (27638 particles on task=0)
find linkngb iteration 1: need to repeat for 0006968839 particles. (took 0.546338 sec)
find linkngb iteration 2: need to repeat for 0006601544 particles. (took 0.377683 sec)
find linkngb iteration 3: need to repeat for 0006307970 particles. (took 0.260939 sec)
find linkngb iteration 4: need to repeat for 0005567013 particles. (took 0.291882 sec)
find linkngb iteration 5: need to repeat for 0004638344 particles. (took 0.248074 sec)
find linkngb iteration 6: need to repeat for 0003364051 particles. (took 0.204102 sec)
find linkngb iteration 7: need to repeat for 0002119837 particles. (took 0.14792 sec)
find linkngb iteration 8: need to repeat for 0001207426 particles. (took 0.0972042 sec)
find linkngb iteration 9: need to repeat for 0000646984 particles. (took 0.062135 sec)
find linkngb iteration 10: need to repeat for 0000335159 particles. (took 0.0386589 sec)
find linkngb iteration 11: need to repeat for 0000170466 particles. (took 0.0246239 sec)
find linkngb iteration 12: need to repeat for 0000036624 particles. (took 0.0168869 sec)
find linkngb iteration 13: need to repeat for 0000000944 particles. (took 0.00892496 sec)
find linkngb iteration 14: need to repeat for 0000000282 particles. (took 0.000746012 sec)
find linkngb iteration 15: need to repeat for 0000000105 particles. (took 0.000472069 sec)
find linkngb iteration 16: need to repeat for 0000000033 particles. (took 0.000403881 sec)
find linkngb iteration 17: need to repeat for 0000000012 particles. (took 0.000385046 sec)
find linkngb iteration 18: need to repeat for 0000000004 particles. (took 0.000400066 sec)
find linkngb iteration 19: need to repeat for 0000000004 particles. (took 0.0003829 sec)
find_linkngb() took 2.32914 sec
Start finding nearest two (27638 particles on task=0)
find_nearesttwo() took 0.451317 sec (presently allocated=3119.32 MB)
parallel sort of densities done. took 0.057708 sec
building distributed linked list. (presently allocated 3119.04 MB)
identification of primary candidates took 183.131 sec
adding background as candidate took 0.174438 sec
establishing of rank order took 56.3268 sec  (p=7103829, grouplen=7103829) presently allocated 3119.04 MB

total number of subhalo candidates=32031

number of subhalo candidates that can be done independently=28448.
(Largest size is 2346, finding them took 0.00862098 sec)
particles are marked (took 39.1193)
independent subhalos are assembled on individual CPUs for unbinding (0.187484 sec, (presently allocated=3119.04 MB)
unbinding of independent ones took 0.0616131 sec
particles have returned to their original processor (0.257128 sec, presently allocated 3119.04 MB)

number of subhalo candidates that can be done independently=3301.
(Largest size is 15872, finding them took 1.1062 sec)
particles are marked (took 25.2746)
independent subhalos are assembled on individual CPUs for unbinding (0.19797 sec, (presently allocated=3119.04 MB)
unbinding of independent ones took 0.460413 sec
particles have returned to their original processor (0.253123 sec, presently allocated 3119.04 MB)

number of subhalo candidates that can be done independently=253.
(Largest size is 323606, finding them took 1.00727 sec)
particles are marked (took 20.8442)
independent subhalos are assembled on individual CPUs for unbinding (0.177903 sec, (presently allocated=3119.04 MB)
unbinding of independent ones took 1.78077 sec
particles have returned to their original processor (0.25219 sec, presently allocated 3119.04 MB)

number of subhalo candidates that can be done independently=21.
(Largest size is 323606, finding them took 0.594515 sec)
particles are marked (took 16.7277)
independent subhalos are assembled on individual CPUs for unbinding (0.173212 sec, (presently allocated=3119.04 MB)
unbinding of independent ones took 1.06008 sec
particles have returned to their original processor (0.248976 sec, presently allocated 3119.04 MB)

number of subhalo candidates that can be done independently=3.
(Largest size is 323606, finding them took 0.594368 sec)
particles are marked (took 15.2117)
independent subhalos are assembled on individual CPUs for unbinding (0.168977 sec, (presently allocated=3119.04 MB)
unbinding of independent ones took 0.932579 sec
particles have returned to their original processor (0.244186 sec, presently allocated 3119.04 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 323606, finding them took 0.522576 sec)
particles are marked (took 15.4937)
independent subhalos are assembled on individual CPUs for unbinding (0.174809 sec, (presently allocated=3119.04 MB)
unbinding of independent ones took 1.56544 sec
particles have returned to their original processor (0.252889 sec, presently allocated 3119.04 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 323606, finding them took 0.593208 sec)
too few, I do the rest of 4 collectively

collective unbinding of nr=0 (4) of length=323606 ... maximum alloacted 3119.15 MB
took 5.94258 sec
collective unbinding of nr=1 (4) of length=261557 ... maximum alloacted 3119.15 MB
took 5.38563 sec
collective unbinding of nr=2 (4) of length=233693 ... maximum alloacted 3119.15 MB
took 5.13063 sec
collective unbinding of nr=3 (4) of length=7103829 ... maximum alloacted 3119.15 MB
took 128.644 sec

the collective unbinding of remaining halos took 159.081 sec

found 2528 bound substructures in FoF group of length 7103829
determination of parent subhalo took 0.042541 sec (presently allocated 3119.15 MB)
determining substructure properties took 149.386 sec (presently allocated 3119.15 MB)

collectively doing halo 4, num=22
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2610.62 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2670.17 MB)
Before=138449
After=167841
NTopleaves= 146861  NTopnodes=167841 (space for 244687)
gravity work-load balance=1.00055   memory-balance=1.00055   SPH work-load balance=0
iter=0 exchange of 0005739495 particles (ret=0)
domain decomposition done. (took 1.04148 sec)
Freed 3.51773 MByte in top-level domain structure
coldomain_Decomposition() took 1.53132 sec  (presently allocated=3117.59 MB)
force_treebuild() took 1.91384 sec (presently allocated=3117.59 MB)
Start find_linkngb (22420 particles on task=0)
find linkngb iteration 1: need to repeat for 0005702286 particles. (took 0.448266 sec)
find linkngb iteration 2: need to repeat for 0005482896 particles. (took 0.300859 sec)
find linkngb iteration 3: need to repeat for 0005244014 particles. (took 0.204213 sec)
find linkngb iteration 4: need to repeat for 0004653562 particles. (took 0.232675 sec)
find linkngb iteration 5: need to repeat for 0003891756 particles. (took 0.199322 sec)
find linkngb iteration 6: need to repeat for 0002829617 particles. (took 0.165225 sec)
find linkngb iteration 7: need to repeat for 0001783594 particles. (took 0.120067 sec)
find linkngb iteration 8: need to repeat for 0001014922 particles. (took 0.0882149 sec)
find linkngb iteration 9: need to repeat for 0000544066 particles. (took 0.0682168 sec)
find linkngb iteration 10: need to repeat for 0000281951 particles. (took 0.0594959 sec)
find linkngb iteration 11: need to repeat for 0000143772 particles. (took 0.021421 sec)
find linkngb iteration 12: need to repeat for 0000031085 particles. (took 0.0152121 sec)
find linkngb iteration 13: need to repeat for 0000000707 particles. (took 0.00865507 sec)
find linkngb iteration 14: need to repeat for 0000000190 particles. (took 0.000732183 sec)
find linkngb iteration 15: need to repeat for 0000000057 particles. (took 0.000463963 sec)
find linkngb iteration 16: need to repeat for 0000000015 particles. (took 0.000401974 sec)
find linkngb iteration 17: need to repeat for 0000000002 particles. (took 0.000402927 sec)
find_linkngb() took 1.93476 sec
Start finding nearest two (22420 particles on task=0)
find_nearesttwo() took 0.378787 sec (presently allocated=3119.3 MB)
parallel sort of densities done. took 0.055804 sec
building distributed linked list. (presently allocated 3119.07 MB)
identification of primary candidates took 148.277 sec
adding background as candidate took 0.187042 sec
establishing of rank order took 48.4284 sec  (p=5763249, grouplen=5763249) presently allocated 3119.07 MB

total number of subhalo candidates=25356

number of subhalo candidates that can be done independently=22662.
(Largest size is 2296, finding them took 0.00685 sec)
particles are marked (took 31.299)
independent subhalos are assembled on individual CPUs for unbinding (0.183634 sec, (presently allocated=3119.07 MB)
unbinding of independent ones took 0.0505481 sec
particles have returned to their original processor (0.253574 sec, presently allocated 3119.07 MB)

number of subhalo candidates that can be done independently=2488.
(Largest size is 8439, finding them took 1.1041 sec)
particles are marked (took 19.8862)
independent subhalos are assembled on individual CPUs for unbinding (0.182639 sec, (presently allocated=3119.07 MB)
unbinding of independent ones took 0.201622 sec
particles have returned to their original processor (0.252747 sec, presently allocated 3119.07 MB)

number of subhalo candidates that can be done independently=185.
(Largest size is 66753, finding them took 0.937759 sec)
particles are marked (took 16.5886)
independent subhalos are assembled on individual CPUs for unbinding (0.194284 sec, (presently allocated=3119.07 MB)
unbinding of independent ones took 2.56696 sec
particles have returned to their original processor (0.274054 sec, presently allocated 3119.07 MB)

number of subhalo candidates that can be done independently=17.
(Largest size is 248232, finding them took 0.704884 sec)
particles are marked (took 13.4776)
independent subhalos are assembled on individual CPUs for unbinding (0.170736 sec, (presently allocated=3119.07 MB)
unbinding of independent ones took 1.11195 sec
particles have returned to their original processor (0.245571 sec, presently allocated 3119.07 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 396437, finding them took 0.583798 sec)
particles are marked (took 12.445)
independent subhalos are assembled on individual CPUs for unbinding (0.169511 sec, (presently allocated=3119.07 MB)
unbinding of independent ones took 1.89406 sec
particles have returned to their original processor (0.245062 sec, presently allocated 3119.07 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 396437, finding them took 0.535422 sec)
too few, I do the rest of 3 collectively

collective unbinding of nr=0 (3) of length=396437 ... maximum alloacted 3119.16 MB
took 9.22788 sec
collective unbinding of nr=1 (3) of length=248232 ... maximum alloacted 3119.16 MB
took 5.36788 sec
collective unbinding of nr=2 (3) of length=5763249 ... maximum alloacted 3119.16 MB
took 104.918 sec

the collective unbinding of remaining halos took 130.623 sec

found 2066 bound substructures in FoF group of length 5763249
determination of parent subhalo took 0.04161 sec (presently allocated 3119.16 MB)
determining substructure properties took 123.196 sec (presently allocated 3119.16 MB)

collectively doing halo 5, num=22
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2610.62 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2670.17 MB)
Before=140617
After=165585
NTopleaves= 144887  NTopnodes=165585 (space for 244687)
gravity work-load balance=1.0005   memory-balance=1.0005   SPH work-load balance=0
iter=0 exchange of 0004046605 particles (ret=0)
domain decomposition done. (took 1.02219 sec)
Freed 3.621 MByte in top-level domain structure
coldomain_Decomposition() took 1.5117 sec  (presently allocated=3117.08 MB)
force_treebuild() took 1.92031 sec (presently allocated=3117.08 MB)
Start find_linkngb (15873 particles on task=0)
find linkngb iteration 1: need to repeat for 0004041647 particles. (took 0.296663 sec)
find linkngb iteration 2: need to repeat for 0003936467 particles. (took 0.196309 sec)
find linkngb iteration 3: need to repeat for 0003771409 particles. (took 0.136033 sec)
find linkngb iteration 4: need to repeat for 0003365463 particles. (took 0.154289 sec)
find linkngb iteration 5: need to repeat for 0002816697 particles. (took 0.133471 sec)
find linkngb iteration 6: need to repeat for 0002046870 particles. (took 0.111828 sec)
find linkngb iteration 7: need to repeat for 0001290611 particles. (took 0.0852768 sec)
find linkngb iteration 8: need to repeat for 0000735549 particles. (took 0.0574911 sec)
find linkngb iteration 9: need to repeat for 0000394729 particles. (took 0.0374219 sec)
find linkngb iteration 10: need to repeat for 0000204857 particles. (took 0.0262079 sec)
find linkngb iteration 11: need to repeat for 0000104166 particles. (took 0.018918 sec)
find linkngb iteration 12: need to repeat for 0000022528 particles. (took 0.0131989 sec)
find linkngb iteration 13: need to repeat for 0000000716 particles. (took 0.00764799 sec)
find linkngb iteration 14: need to repeat for 0000000247 particles. (took 0.000625134 sec)
find linkngb iteration 15: need to repeat for 0000000094 particles. (took 0.000430107 sec)
find linkngb iteration 16: need to repeat for 0000000026 particles. (took 0.000375986 sec)
find linkngb iteration 17: need to repeat for 0000000005 particles. (took 0.000368834 sec)
find_linkngb() took 1.2774 sec
Start finding nearest two (15873 particles on task=0)
find_nearesttwo() took 0.275094 sec (presently allocated=3118.29 MB)
parallel sort of densities done. took 0.0487571 sec
building distributed linked list. (presently allocated 3118.13 MB)
identification of primary candidates took 105.912 sec
adding background as candidate took 0.161189 sec
establishing of rank order took 34.1477 sec  (p=4062738, grouplen=4062738) presently allocated 3118.13 MB

total number of subhalo candidates=17681

number of subhalo candidates that can be done independently=15669.
(Largest size is 3373, finding them took 0.00486302 sec)
particles are marked (took 21.9296)
independent subhalos are assembled on individual CPUs for unbinding (0.177983 sec, (presently allocated=3118.13 MB)
unbinding of independent ones took 0.0683439 sec
particles have returned to their original processor (0.247589 sec, presently allocated 3118.13 MB)

number of subhalo candidates that can be done independently=1844.
(Largest size is 13958, finding them took 1.09829 sec)
particles are marked (took 14.9658)
independent subhalos are assembled on individual CPUs for unbinding (0.178833 sec, (presently allocated=3118.13 MB)
unbinding of independent ones took 0.420036 sec
particles have returned to their original processor (0.254975 sec, presently allocated 3118.13 MB)

number of subhalo candidates that can be done independently=156.
(Largest size is 150488, finding them took 1.11685 sec)
particles are marked (took 15.9414)
independent subhalos are assembled on individual CPUs for unbinding (0.193009 sec, (presently allocated=3118.13 MB)
unbinding of independent ones took 4.2672 sec
particles have returned to their original processor (0.277005 sec, presently allocated 3118.13 MB)

number of subhalo candidates that can be done independently=11.
(Largest size is 12598, finding them took 0.492528 sec)
particles are marked (took 8.93829)
independent subhalos are assembled on individual CPUs for unbinding (0.168646 sec, (presently allocated=3118.13 MB)
unbinding of independent ones took 0.249739 sec
particles have returned to their original processor (0.241783 sec, presently allocated 3118.13 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 4062738, finding them took 0.585433 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=4062738 ... maximum alloacted 3118.19 MB
took 69.0761 sec

the collective unbinding of remaining halos took 76.7712 sec

found 1537 bound substructures in FoF group of length 4062738
determination of parent subhalo took 0.040319 sec (presently allocated 3118.19 MB)
determining substructure properties took 86.2903 sec (presently allocated 3118.19 MB)

collectively doing halo 6, num=22
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2610.62 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2670.17 MB)
Before=146537
After=169281
NTopleaves= 148121  NTopnodes=169281 (space for 244687)
gravity work-load balance=1.00061   memory-balance=1.00061   SPH work-load balance=0
iter=0 exchange of 0002917926 particles (ret=0)
domain decomposition done. (took 1.003 sec)
Freed 3.45181 MByte in top-level domain structure
coldomain_Decomposition() took 1.49233 sec  (presently allocated=3117.91 MB)
force_treebuild() took 1.94921 sec (presently allocated=3117.91 MB)
Start find_linkngb (11449 particles on task=0)
find linkngb iteration 1: need to repeat for 0002924891 particles. (took 0.205653 sec)
find linkngb iteration 2: need to repeat for 0002873278 particles. (took 0.134724 sec)
find linkngb iteration 3: need to repeat for 0002756888 particles. (took 0.0967979 sec)
find linkngb iteration 4: need to repeat for 0002472449 particles. (took 0.108592 sec)
find linkngb iteration 5: need to repeat for 0002073997 particles. (took 0.095824 sec)
find linkngb iteration 6: need to repeat for 0001509850 particles. (took 0.081152 sec)
find linkngb iteration 7: need to repeat for 0000954087 particles. (took 0.0618951 sec)
find linkngb iteration 8: need to repeat for 0000544846 particles. (took 0.042872 sec)
find linkngb iteration 9: need to repeat for 0000292712 particles. (took 0.0300429 sec)
find linkngb iteration 10: need to repeat for 0000151776 particles. (took 0.0198331 sec)
find linkngb iteration 11: need to repeat for 0000077022 particles. (took 0.0144482 sec)
find linkngb iteration 12: need to repeat for 0000016619 particles. (took 0.0114651 sec)
find linkngb iteration 13: need to repeat for 0000000576 particles. (took 0.00713205 sec)
find linkngb iteration 14: need to repeat for 0000000176 particles. (took 0.000612974 sec)
find linkngb iteration 15: need to repeat for 0000000062 particles. (took 0.000483036 sec)
find linkngb iteration 16: need to repeat for 0000000023 particles. (took 0.000415802 sec)
find linkngb iteration 17: need to repeat for 0000000006 particles. (took 0.000428915 sec)
find linkngb iteration 18: need to repeat for 0000000002 particles. (took 0.000413179 sec)
find_linkngb() took 0.913641 sec
Start finding nearest two (11449 particles on task=0)
find_nearesttwo() took 0.188216 sec (presently allocated=3118.78 MB)
parallel sort of densities done. took 0.0448852 sec
building distributed linked list. (presently allocated 3118.67 MB)
identification of primary candidates took 82.388 sec
adding background as candidate took 0.157764 sec
establishing of rank order took 25.4208 sec  (p=2930949, grouplen=2930949) presently allocated 3118.67 MB

total number of subhalo candidates=11702

number of subhalo candidates that can be done independently=10599.
(Largest size is 3872, finding them took 0.00345993 sec)
particles are marked (took 15.0016)
independent subhalos are assembled on individual CPUs for unbinding (0.17475 sec, (presently allocated=3118.67 MB)
unbinding of independent ones took 0.0654371 sec
particles have returned to their original processor (0.259085 sec, presently allocated 3118.67 MB)

number of subhalo candidates that can be done independently=1036.
(Largest size is 11221, finding them took 1.11631 sec)
particles are marked (took 9.78132)
independent subhalos are assembled on individual CPUs for unbinding (0.177141 sec, (presently allocated=3118.67 MB)
unbinding of independent ones took 0.299836 sec
particles have returned to their original processor (0.252911 sec, presently allocated 3118.67 MB)

number of subhalo candidates that can be done independently=58.
(Largest size is 60978, finding them took 0.958687 sec)
particles are marked (took 8.98918)
independent subhalos are assembled on individual CPUs for unbinding (0.179018 sec, (presently allocated=3118.67 MB)
unbinding of independent ones took 1.32989 sec
particles have returned to their original processor (0.256216 sec, presently allocated 3118.67 MB)

number of subhalo candidates that can be done independently=5.
(Largest size is 43580, finding them took 0.59769 sec)
particles are marked (took 6.66597)
independent subhalos are assembled on individual CPUs for unbinding (0.175291 sec, (presently allocated=3118.67 MB)
unbinding of independent ones took 1.14122 sec
particles have returned to their original processor (0.259092 sec, presently allocated 3118.67 MB)

number of subhalo candidates that can be done independently=2.
(Largest size is 75241, finding them took 0.594568 sec)
particles are marked (took 6.87122)
independent subhalos are assembled on individual CPUs for unbinding (0.172246 sec, (presently allocated=3118.67 MB)
unbinding of independent ones took 1.62355 sec
particles have returned to their original processor (0.251869 sec, presently allocated 3118.67 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 626023, finding them took 0.597848 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=626023 ... maximum alloacted 3118.71 MB
took 15.9549 sec
collective unbinding of nr=1 (2) of length=2930949 ... maximum alloacted 3118.71 MB
took 52.2643 sec

the collective unbinding of remaining halos took 73.364 sec

found 1081 bound substructures in FoF group of length 2930949
determination of parent subhalo took 0.035126 sec (presently allocated 3118.71 MB)
determining substructure properties took 69.3485 sec (presently allocated 3118.71 MB)
processing of collective halos took 4102.66 sec
sort of local particles()() took 0.624194 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 344.052 sec

Task 207: testing particles ...
Task 254: testing particles ...
Task 240: testing particles ...
Task 218: testing particles ...
Task 223: testing particles ...
Task 5: testing particles ...
Task 212: testing particles ...
Task 190: testing particles ...
Task 179: testing particles ...
Task 245: testing particles ...
Task 237: testing particles ...
Task 248: testing particles ...
Task 1: testing particles ...
Task 225: testing particles ...
Task 152: testing particles ...
Task 255: testing particles ...
Task 157: testing particles ...
Task 221: testing particles ...
Task 175: testing particles ...
Task 173: testing particles ...
Task 238: testing particles ...
Task 246: testing particles ...
Task 213: testing particles ...
Task 137: testing particles ...
Task 3: testing particles ...
Task 192: testing particles ...
Task 241: testing particles ...
Task 150: testing particles ...
Task 153: testing particles ...
Task 180: testing particles ...
Task 161: testing particles ...
Task 113: testing particles ...
Task 166: testing particles ...
Task 121: testing particles ...
Task 231: testing particles ...
Task 174: testing particles ...
Task 206: testing particles ...
Task 133: testing particles ...
Task 227: testing particles ...
Task 125: testing particles ...
Task 140: testing particles ...
Task 247: testing particles ...
Task 197: testing particles ...
Task 204: testing particles ...
Task 203: testing particles ...
Task 183: testing particles ...
Task 162: testing particles ...
Task 239: testing particles ...
Task 141: testing particles ...
Task 211: testing particles ...
Task 252: testing particles ...
Task 163: testing particles ...
Task 233: testing particles ...
Task 249: testing particles ...
Task 184: testing particles ...
Task 220: testing particles ...
Task 144: testing particles ...
Task 187: testing particles ...
Task 185: testing particles ...
Task 131: testing particles ...
Task 94: testing particles ...
Task 147: testing particles ...
Task 209: testing particles ...
Task 107: testing particles ...
Task 142: testing particles ...
Task 250: testing particles ...
Task 182: testing particles ...
Task 202: testing particles ...
Task 102: testing particles ...
Task 191: testing particles ...
Task 129: testing particles ...
Task 93: testing particles ...
Task 168: testing particles ...
Task 236: testing particles ...
Task 136: testing particles ...
Task 123: testing particles ...
Task 103: testing particles ...
Task 201: testing particles ...
Task 229: testing particles ...
Task 120: testing particles ...
Task 172: testing particles ...
Task 4: testing particles ...
Task 242: testing particles ...
Task 97: testing particles ...
Task 167: testing particles ...
Task 199: testing particles ...
Task 2: testing particles ...
Task 169: testing particles ...
Task 244: testing particles ...
Task 164: testing particles ...
Task 217: testing particles ...
Task 110: testing particles ...
Task 226: testing particles ...
Task 122: testing particles ...
Task 58: testing particles ...
Task 251: testing particles ...
Task 154: testing particles ...
Task 99: testing particles ...
Task 119: testing particles ...
Task 228: testing particles ...
Task 210: testing particles ...
Task 143: testing particles ...
Task 219: testing particles ...
Task 158: testing particles ...
Task 224: testing particles ...
Task 118: testing particles ...
Task 116: testing particles ...
Task 188: testing particles ...
Task 104: testing particles ...
Task 171: testing particles ...
Task 130: testing particles ...
Task 82: testing particles ...
Task 124: testing particles ...
Task 178: testing particles ...
Task 234: testing particles ...
Task 208: testing particles ...
Task 146: testing particles ...
Task 73: testing particles ...
Task 195: testing particles ...
Task 112: testing particles ...
Task 115: testing particles ...
Task 222: testing particles ...
Task 98: testing particles ...
Task 243: testing particles ...
Task 92: testing particles ...
Task 176: testing particles ...
Task 84: testing particles ...
Task 253: testing particles ...
Task 106: testing particles ...
Task 235: testing particles ...
Task 232: testing particles ...
Task 198: testing particles ...
Task 214: testing particles ...
Task 160: testing particles ...
Task 85: testing particles ...
Task 230: testing particles ...
Task 67: testing particles ...
unsorting of local particles()() took 0.589367 sec
Task 0: testing particles ...
Task 156: testing particles ...
Task 216: testing particles ...
Task 100: testing particles ...
Task 181: testing particles ...
Task 127: testing particles ...
Task 200: testing particles ...
Task 193: testing particles ...
Task 89: testing particles ...
Task 148: testing particles ...
Task 74: testing particles ...
Task 149: testing particles ...
Task 114: testing particles ...
Task 108: testing particles ...
Task 86: testing particles ...
Task 196: testing particles ...
Task 194: testing particles ...
Task 76: testing particles ...
Task 145: testing particles ...
Task 155: testing particles ...
Task 128: testing particles ...
Task 101: testing particles ...
Task 205: testing particles ...
Task 177: testing particles ...
Task 134: testing particles ...
Task 189: testing particles ...
Task 186: testing particles ...
Task 87: testing particles ...
Task 139: testing particles ...
Task 77: testing particles ...
Task 126: testing particles ...
Task 96: testing particles ...
Task 63: testing particles ...
Task 64: testing particles ...
Task 52: testing particles ...
Task 132: testing particles ...
Task 81: testing particles ...
Task 65: testing particles ...
Task 170: testing particles ...
Task 117: testing particles ...
Task 165: testing particles ...
Task 111: testing particles ...
Task 83: testing particles ...
Task 50: testing particles ...
Task 135: testing particles ...
Task 215: testing particles ...
Task 95: testing particles ...
Task 159: testing particles ...
Task 78: testing particles ...
Task 91: testing particles ...
Task 138: testing particles ...
Task 69: testing particles ...
Task 79: testing particles ...
Task 151: testing particles ...
Task 62: testing particles ...
Task 80: testing particles ...
Task 59: testing particles ...
Task 68: testing particles ...
Task 90: testing particles ...
Task 57: testing particles ...
Task 53: testing particles ...
Task 56: testing particles ...
Task 43: testing particles ...
Task 36: testing particles ...
Task 109: testing particles ...
Task 105: testing particles ...
Task 46: testing particles ...
Task 88: testing particles ...
Task 72: testing particles ...
Task 70: testing particles ...
Task 47: testing particles ...
Task 60: testing particles ...
Task 49: testing particles ...
Task 61: testing particles ...
Task 66: testing particles ...
Task 54: testing particles ...
Task 38: testing particles ...
Task 75: testing particles ...
Task 51: testing particles ...
Task 44: testing particles ...
Task 48: testing particles ...
Task 71: testing particles ...
Task 42: testing particles ...
Task 39: testing particles ...
Task 31: testing particles ...
Task 41: testing particles ...
Task 45: testing particles ...
Task 55: testing particles ...
Task 40: testing particles ...
Task 32: testing particles ...
Task 35: testing particles ...
Task 30: testing particles ...
Task 25: testing particles ...
Task 24: testing particles ...
Task 28: testing particles ...
Task 29: testing particles ...
Task 37: testing particles ...
Task 34: testing particles ...
Task 27: testing particles ...
Task 23: testing particles ...
Task 33: testing particles ...
Task 21: testing particles ...
Task 26: testing particles ...
Task 15: testing particles ...
Task 19: testing particles ...
Task 22: testing particles ...
Task 18: testing particles ...
Task 20: testing particles ...
Task 14: testing particles ...
Task 17: testing particles ...
Task 13: testing particles ...
Task 16: testing particles ...
Task 12: testing particles ...
Task 11: testing particles ...
Task 10: testing particles ...
Task 9: testing particles ...
Task 6: testing particles ...
Task 7: testing particles ...
Task 8: testing particles ...
subfind_exchange() (for return to original CPU)  took 3.72043 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2610.62 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2670.17 MB)
Before=186505
After=204521
NTopleaves= 178956  NTopnodes=204521 (space for 244687)
gravity work-load balance=1.00036   memory-balance=1.00036   SPH work-load balance=0
iter=0 exchange of 0273060767 particles (ret=0)
domain decomposition done. (took 4.01319 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.83865 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000158840 particles. (took 0.028811 sec)
SO iteration 2: need to repeat for 0000158840 particles. (took 0.0229681 sec)
SO iteration 3: need to repeat for 0000158840 particles. (took 0.0231669 sec)
SO iteration 4: need to repeat for 0000158840 particles. (took 0.022805 sec)
SO iteration 5: need to repeat for 0000158840 particles. (took 0.023226 sec)
SO iteration 6: need to repeat for 0000158840 particles. (took 0.023185 sec)
SO iteration 7: need to repeat for 0000158840 particles. (took 0.02268 sec)
SO iteration 8: need to repeat for 0000158840 particles. (took 0.0227911 sec)
SO iteration 9: need to repeat for 0000158840 particles. (took 0.0230219 sec)
SO iteration 10: need to repeat for 0000158840 particles. (took 0.022769 sec)
SO iteration 11: need to repeat for 0000158840 particles. (took 0.0227911 sec)
SO iteration 12: need to repeat for 0000158840 particles. (took 0.0226781 sec)
SO iteration 13: need to repeat for 0000158840 particles. (took 0.022645 sec)
SO iteration 14: need to repeat for 0000158840 particles. (took 0.0228601 sec)
SO iteration 15: need to repeat for 0000158345 particles. (took 0.022742 sec)
SO iteration 16: need to repeat for 0000000484 particles. (took 0.02226 sec)
SO iteration 17: need to repeat for 0000000049 particles. (took 0.000962019 sec)
SO iteration 18: need to repeat for 0000000002 particles. (took 0.000620127 sec)
SO iteration 1: need to repeat for 0000158840 particles. (took 0.023257 sec)
SO iteration 2: need to repeat for 0000158840 particles. (took 0.0208631 sec)
SO iteration 3: need to repeat for 0000158840 particles. (took 0.0218148 sec)
SO iteration 4: need to repeat for 0000158840 particles. (took 0.021131 sec)
SO iteration 5: need to repeat for 0000158840 particles. (took 0.021369 sec)
SO iteration 6: need to repeat for 0000158840 particles. (took 0.0213559 sec)
SO iteration 7: need to repeat for 0000158840 particles. (took 0.021256 sec)
SO iteration 8: need to repeat for 0000158840 particles. (took 0.0212111 sec)
SO iteration 9: need to repeat for 0000158840 particles. (took 0.021261 sec)
SO iteration 10: need to repeat for 0000158840 particles. (took 0.021276 sec)
SO iteration 11: need to repeat for 0000158840 particles. (took 0.0212119 sec)
SO iteration 12: need to repeat for 0000158840 particles. (took 0.021215 sec)
SO iteration 13: need to repeat for 0000158840 particles. (took 0.021323 sec)
SO iteration 14: need to repeat for 0000158840 particles. (took 0.0212631 sec)
SO iteration 15: need to repeat for 0000158730 particles. (took 0.021317 sec)
SO iteration 16: need to repeat for 0000019707 particles. (took 0.0212128 sec)
SO iteration 17: need to repeat for 0000000301 particles. (took 0.00677013 sec)
SO iteration 18: need to repeat for 0000000049 particles. (took 0.000859022 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000576973 sec)
SO iteration 1: need to repeat for 0000158840 particles. (took 0.0233788 sec)
SO iteration 2: need to repeat for 0000158840 particles. (took 0.0206439 sec)
SO iteration 3: need to repeat for 0000158840 particles. (took 0.0207729 sec)
SO iteration 4: need to repeat for 0000158840 particles. (took 0.0208509 sec)
SO iteration 5: need to repeat for 0000158840 particles. (took 0.0199511 sec)
SO iteration 6: need to repeat for 0000158840 particles. (took 0.0197661 sec)
SO iteration 7: need to repeat for 0000158840 particles. (took 0.0199709 sec)
SO iteration 8: need to repeat for 0000158840 particles. (took 0.020077 sec)
SO iteration 9: need to repeat for 0000158840 particles. (took 0.0203881 sec)
SO iteration 10: need to repeat for 0000158840 particles. (took 0.0198359 sec)
SO iteration 11: need to repeat for 0000158840 particles. (took 0.019824 sec)
SO iteration 12: need to repeat for 0000158840 particles. (took 0.02052 sec)
SO iteration 13: need to repeat for 0000158840 particles. (took 0.019954 sec)
SO iteration 14: need to repeat for 0000158840 particles. (took 0.0200708 sec)
SO iteration 15: need to repeat for 0000158834 particles. (took 0.0217888 sec)
SO iteration 16: need to repeat for 0000158807 particles. (took 0.019793 sec)
SO iteration 17: need to repeat for 0000031549 particles. (took 0.0313711 sec)
SO iteration 18: need to repeat for 0000000599 particles. (took 0.0113471 sec)
SO iteration 19: need to repeat for 0000000073 particles. (took 0.00277495 sec)
SO iteration 20: need to repeat for 0000000004 particles. (took 0.00085187 sec)
SO iteration 1: need to repeat for 0000158840 particles. (took 0.0234301 sec)
SO iteration 2: need to repeat for 0000158840 particles. (took 0.0215111 sec)
SO iteration 3: need to repeat for 0000158840 particles. (took 0.0254159 sec)
SO iteration 4: need to repeat for 0000158840 particles. (took 0.0387251 sec)
SO iteration 5: need to repeat for 0000158840 particles. (took 0.024226 sec)
SO iteration 6: need to repeat for 0000158840 particles. (took 0.022552 sec)
SO iteration 7: need to repeat for 0000158840 particles. (took 0.0224459 sec)
SO iteration 8: need to repeat for 0000158840 particles. (took 0.022656 sec)
SO iteration 9: need to repeat for 0000158840 particles. (took 0.022609 sec)
SO iteration 10: need to repeat for 0000158840 particles. (took 0.0225451 sec)
SO iteration 11: need to repeat for 0000158840 particles. (took 0.0225959 sec)
SO iteration 12: need to repeat for 0000158840 particles. (took 0.022613 sec)
SO iteration 13: need to repeat for 0000158840 particles. (took 0.0225399 sec)
SO iteration 14: need to repeat for 0000158840 particles. (took 0.0225852 sec)
SO iteration 15: need to repeat for 0000158540 particles. (took 0.0225148 sec)
SO iteration 16: need to repeat for 0000001443 particles. (took 0.022238 sec)
SO iteration 17: need to repeat for 0000000102 particles. (took 0.00144291 sec)
SO iteration 18: need to repeat for 0000000006 particles. (took 0.000656843 sec)
SO iteration 1: need to repeat for 0000158840 particles. (took 0.0233011 sec)
SO iteration 2: need to repeat for 0000158840 particles. (took 0.0207939 sec)
SO iteration 3: need to repeat for 0000158840 particles. (took 0.0218701 sec)
SO iteration 4: need to repeat for 0000158840 particles. (took 0.0215631 sec)
SO iteration 5: need to repeat for 0000158840 particles. (took 0.021548 sec)
SO iteration 6: need to repeat for 0000158840 particles. (took 0.0217049 sec)
SO iteration 7: need to repeat for 0000158840 particles. (took 0.0216589 sec)
SO iteration 8: need to repeat for 0000158840 particles. (took 0.0216548 sec)
SO iteration 9: need to repeat for 0000158840 particles. (took 0.0217149 sec)
SO iteration 10: need to repeat for 0000158840 particles. (took 0.0216899 sec)
SO iteration 11: need to repeat for 0000158840 particles. (took 0.0217109 sec)
SO iteration 12: need to repeat for 0000158840 particles. (took 0.0216579 sec)
SO iteration 13: need to repeat for 0000158840 particles. (took 0.0216279 sec)
SO iteration 14: need to repeat for 0000158840 particles. (took 0.021651 sec)
SO iteration 15: need to repeat for 0000158700 particles. (took 0.0216389 sec)
SO iteration 16: need to repeat for 0000010964 particles. (took 0.021575 sec)
SO iteration 17: need to repeat for 0000000233 particles. (took 0.00469303 sec)
SO iteration 18: need to repeat for 0000000034 particles. (took 0.000751019 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.00058198 sec)
SO iteration 1: need to repeat for 0000158840 particles. (took 0.023834 sec)
SO iteration 2: need to repeat for 0000158840 particles. (took 0.0211859 sec)
SO iteration 3: need to repeat for 0000158840 particles. (took 0.0199559 sec)
SO iteration 4: need to repeat for 0000158840 particles. (took 0.0204399 sec)
SO iteration 5: need to repeat for 0000158840 particles. (took 0.0207782 sec)
SO iteration 6: need to repeat for 0000158840 particles. (took 0.020422 sec)
SO iteration 7: need to repeat for 0000158840 particles. (took 0.0205269 sec)
SO iteration 8: need to repeat for 0000158840 particles. (took 0.0212569 sec)
SO iteration 9: need to repeat for 0000158840 particles. (took 0.0211589 sec)
SO iteration 10: need to repeat for 0000158840 particles. (took 0.0210929 sec)
SO iteration 11: need to repeat for 0000158840 particles. (took 0.0205588 sec)
SO iteration 12: need to repeat for 0000158840 particles. (took 0.020721 sec)
SO iteration 13: need to repeat for 0000158840 particles. (took 0.0204232 sec)
SO iteration 14: need to repeat for 0000158840 particles. (took 0.0209959 sec)
SO iteration 15: need to repeat for 0000158818 particles. (took 0.0210361 sec)
SO iteration 16: need to repeat for 0000158688 particles. (took 0.0205169 sec)
SO iteration 17: need to repeat for 0000002224 particles. (took 0.0205281 sec)
SO iteration 18: need to repeat for 0000000180 particles. (took 0.00165415 sec)
SO iteration 19: need to repeat for 0000000010 particles. (took 0.000645161 sec)
SO iteration 1: need to repeat for 0000158840 particles. (took 0.0232601 sec)
SO iteration 2: need to repeat for 0000158840 particles. (took 0.020725 sec)
SO iteration 3: need to repeat for 0000158840 particles. (took 0.01896 sec)
SO iteration 4: need to repeat for 0000158840 particles. (took 0.0180981 sec)
SO iteration 5: need to repeat for 0000158840 particles. (took 0.018631 sec)
SO iteration 6: need to repeat for 0000158840 particles. (took 0.0189111 sec)
SO iteration 7: need to repeat for 0000158840 particles. (took 0.0186701 sec)
SO iteration 8: need to repeat for 0000158840 particles. (took 0.0187418 sec)
SO iteration 9: need to repeat for 0000158840 particles. (took 0.018728 sec)
SO iteration 10: need to repeat for 0000158840 particles. (took 0.01876 sec)
SO iteration 11: need to repeat for 0000158840 particles. (took 0.0188019 sec)
SO iteration 12: need to repeat for 0000158840 particles. (took 0.0187409 sec)
SO iteration 13: need to repeat for 0000158840 particles. (took 0.0188251 sec)
SO iteration 14: need to repeat for 0000158840 particles. (took 0.018734 sec)
SO iteration 15: need to repeat for 0000158838 particles. (took 0.0204341 sec)
SO iteration 16: need to repeat for 0000158832 particles. (took 0.018697 sec)
SO iteration 17: need to repeat for 0000157795 particles. (took 0.018816 sec)
SO iteration 18: need to repeat for 0000007106 particles. (took 0.0187609 sec)
SO iteration 19: need to repeat for 0000000247 particles. (took 0.00279713 sec)
SO iteration 20: need to repeat for 0000000020 particles. (took 0.000648975 sec)
determining spherical overdensity masses took 2.54853 sec
finding spherical overdensity particles took 0.6195 sec
determining contamination of halos took 0.227363 sec
Global sort of Groups took 0.165963 sec
Global sort of SubGroups took 0.7258 sec
Global sort of IDs took 0.551675 sec
Writing block 0 (GLEN), n=760, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3040d
Writing block 1 (GOFF), n=760, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3040d
Writing block 2 (MTOT), n=760, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3040d
Writing block 3 (GPOS), n=760, ptype=0, dtype=1, ndim=3, bpb=4 bytes=9120d
Writing block 4 (MMEA), n=760, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3040d
Writing block 5 (RMEA), n=760, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3040d
Writing block 6 (MCRI), n=760, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3040d
Writing block 7 (RCRI), n=760, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3040d
Writing block 8 (MTOP), n=760, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3040d
Writing block 9 (RTOP), n=760, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3040d
Writing block 17 (NCON), n=760, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3040d
Writing block 18 (MCON), n=760, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3040d
Writing block 22 (NSUB), n=760, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3040d
Writing block 23 (FSUB), n=760, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3040d
Writing block 24 (SLEN), n=4274, ptype=1, dtype=0, ndim=1, bpb=4 bytes=17096d
Writing block 25 (SOFF), n=4274, ptype=1, dtype=0, ndim=1, bpb=4 bytes=17096d
Writing block 27 (MSUB), n=4274, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 28 (SPOS), n=4274, ptype=1, dtype=1, ndim=3, bpb=4 bytes=51288d
Writing block 29 (SVEL), n=4274, ptype=1, dtype=1, ndim=3, bpb=4 bytes=51288d
Writing block 30 (SCM ), n=4274, ptype=1, dtype=1, ndim=3, bpb=4 bytes=51288d
Writing block 33 (VMAX), n=4274, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 34 (RMAX), n=4274, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 35 (RHMS), n=4274, ptype=1, dtype=1, ndim=6, bpb=4 bytes=102576d
Writing block 36 (MTRH), n=4274, ptype=1, dtype=1, ndim=6, bpb=4 bytes=102576d
Writing block 37 (MBID), n=4274, ptype=1, dtype=2, ndim=1, bpb=8 bytes=34192d
Writing block 38 (GRNR), n=4274, ptype=1, dtype=0, ndim=1, bpb=4 bytes=17096d
Writing block 39 (SUBN), n=4274, ptype=1, dtype=0, ndim=1, bpb=4 bytes=17096d
Writing block 40 (SMST), n=4274, ptype=1, dtype=1, ndim=6, bpb=4 bytes=102576d
Writing block 53 (PID ), n=543385, ptype=2, dtype=2, ndim=1, bpb=8 bytes=4347080d
Writing block 54 (SLEN), n=4274, ptype=1, dtype=0, ndim=6, bpb=4 bytes=102576d
Writing block 55 (STEN), n=4274, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 56 (SKEN), n=4274, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 57 (SUEN), n=4274, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 58 (SUIT), n=4274, ptype=1, dtype=1, ndim=9, bpb=4 bytes=153864d
Writing block 59 (BHMA), n=4274, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 60 (BHMD), n=4274, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 61 (SVD ), n=4274, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 62 (SVDH), n=4274, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 63 (HMPR), n=4274, ptype=1, dtype=1, ndim=6, bpb=4 bytes=102576d
Writing block 64 (SSFR), n=4274, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 65 (SSA ), n=4274, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 66 (SSBZ), n=4274, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 67 (SSIM), n=4274, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 68 (SSPI), n=4274, ptype=4, dtype=1, ndim=3, bpb=4 bytes=51288d
Writing block 69 (GSPI), n=4274, ptype=1, dtype=1, ndim=3, bpb=4 bytes=51288d
Writing block 70 (FSPI), n=4274, ptype=5, dtype=1, ndim=3, bpb=4 bytes=51288d
Writing block 71 (SFM ), n=4274, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 72 (SFMT), n=4274, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 73 (SFME), n=4274, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 74 (SFAE), n=4274, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 75 (SFKE), n=4274, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 76 (SFTE), n=4274, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 77 (SMWP), n=4274, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 78 (SMM ), n=4274, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 79 (SMMS), n=4274, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 80 (SFZ ), n=4274, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 81 (SFZS), n=4274, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 82 (SSIA), n=4274, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 83 (SIAS), n=4274, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 84 (SMET), n=4274, ptype=5, dtype=1, ndim=9, bpb=4 bytes=153864d
Writing block 85 (SMTS), n=4274, ptype=5, dtype=1, ndim=9, bpb=4 bytes=153864d
Writing block 86 (MF1 ), n=4274, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 87 (MeF1), n=4274, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 88 (MF  ), n=4274, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 89 (MeF2), n=4274, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 90 (MFA ), n=4274, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 91 (MeFA), n=4274, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 92 (NSPI), n=4274, ptype=6, dtype=1, ndim=3, bpb=4 bytes=51288d
Writing block 93 (NFM ), n=4274, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 94 (NFMT), n=4274, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 95 (NFME), n=4274, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 96 (NFAE), n=4274, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 97 (NFKE), n=4274, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 98 (NFTE), n=4274, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 99 (SMWP), n=4274, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 100 (SMM ), n=4274, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 101 (SMMS), n=4274, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 102 (SSIA), n=4274, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 103 (SIAS), n=4274, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 104 (SMET), n=4274, ptype=6, dtype=1, ndim=9, bpb=4 bytes=153864d
Writing block 105 (SMTS), n=4274, ptype=6, dtype=1, ndim=9, bpb=4 bytes=153864d
Writing block 106 (MF1 ), n=4274, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 107 (MeF1), n=4274, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 108 (MF2 ), n=4274, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 109 (MeF2), n=4274, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 110 (MFA ), n=4274, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 111 (MeFA), n=4274, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 112 (SM  ), n=4274, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 113 (SFKE), n=4274, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 114 (SFAE), n=4274, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 115 (SMWP), n=4274, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 116 (SMM ), n=4274, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 117 (SMMS), n=4274, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 118 (SSIA), n=4274, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 119 (SIAS), n=4274, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 120 (SMET), n=4274, ptype=4, dtype=1, ndim=9, bpb=4 bytes=153864d
Writing block 121 (SMTS), n=4274, ptype=4, dtype=1, ndim=9, bpb=4 bytes=153864d
Writing block 122 (MF1 ), n=4274, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 123 (MeF1), n=4274, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 124 (MF2 ), n=4274, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 125 (MeF2), n=4274, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 126 (MFA ), n=4274, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 127 (MeFA), n=4274, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17096d
Writing block 128 (MMe5), n=760, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3040d
Writing block 129 (RMe5), n=760, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3040d
Writing block 130 (MCr5), n=760, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3040d
Writing block 131 (RCr5), n=760, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3040d
Writing block 132 (MMe2), n=760, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3040d
Writing block 133 (RMe2), n=760, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3040d
Writing block 134 (MCr2), n=760, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3040d
Writing block 135 (RCr2), n=760, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3040d
Writing block 136 (MAPT), n=4274, ptype=7, dtype=1, ndim=60, bpb=4 bytes=1025760d
Writing block 137 (SAPT), n=4274, ptype=8, dtype=1, ndim=10, bpb=4 bytes=170960d
Writing block 138 (VAPT), n=4274, ptype=9, dtype=1, ndim=10, bpb=4 bytes=170960d
Writing block 139 (BEGY), n=543385, ptype=2, dtype=1, ndim=1, bpb=4 bytes=2173540d
Subgroup catalogues saved. took = 7.43126 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 6.412530e-01
 eagle_ph_key_ort: type= 2 timed by volker 9.719419e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.841614e-02
 eagle_ph_key_ort: type= 4 timed by volker 4.841614e-02
 eagle_ph_key_ort: type= 5 timed by volker 4.841614e-02
 eagle_ph_key_ort: timing parallel sort = 7.937520e-01
 eagle_fetch_elements: we are using 1102997126 bytes of memory, FreeBytes= 1378746408

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 2635.13 Mbyte (on task=0), Smallest = 1317.21 Mbyte, Average = 1354.73 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9373    1202.9513  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5310    1227.4823  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8850    1268.3674  fof_fof()/fof.c/337
   0 2975 0             Group      1.1507    1269.5181  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1341.1016    2610.6197  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5052    2635.1250  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1165741 number of bytes = 373037120

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3686.72 Mbyte (on task=0), Smallest = 2368.98 Mbyte, Average = 2406.51 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9373    1202.9513  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5310    1227.4823  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8850    1268.3674  fof_fof()/fof.c/337
   0 2975 0             Group      1.1507    1269.5181  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1341.1016    2610.6197  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5052    2635.1250  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      4.4470    2639.5719  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      4.4470    2644.0189  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      4.4470    2648.4658  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    355.7559    3004.2217  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    355.7559    3359.9777  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    326.7365    3686.7141  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.413085e+00
 eagle_fetch_elements: we are using 1102997126 bytes of memory, FreeBytes= 1378746408
 eagle_fetch_elements: max_bytes= 504, max_elements= 1081369 number of bytes = 545009976
 eagle_ph_key_ort: timing parallel SphP exchange = 3.870010e-03
 eagle_fetch_elements: we are using 1102997126 bytes of memory, FreeBytes= 1378746408
 eagle_fetch_elements: max_bytes= 384, max_elements= 1414098 number of bytes = 543013632
 eagle_ph_key_ort: timing parallel MetP exchange = 5.421638e-04
 eagle_fetch_elements: we are using 1102997126 bytes of memory, FreeBytes= 1378746408
 eagle_fetch_elements: max_bytes= 256, max_elements= 2104956 number of bytes = 538868736
 eagle_ph_key_ort: timing parallel BHP exchange = 5.009174e-04
Sorting particle-data by peano-hilbert key took = 3.59132 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1102997126 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1165741 number of bytes= 373037120
 eagle_ph_restore: timing parallel P exchange = 2.382564e+00
 eagle_send_elements: we are using 1102997126 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1081369 number of bytes= 545009976
 eagle_ph_restore: timing parallel SphP exchange = 3.147125e-03
 eagle_send_elements: we are using 1102997126 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1414098 number of bytes= 543013632
 eagle_ph_restore: timing parallel MetP exchange = 6.279945e-04
 eagle_send_elements: we are using 1102997126 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 2104956 number of bytes= 538868736
 eagle_ph_restore: timing parallel BHP exchange = 6.940365e-04
Restoring original order after ph key sorting took = 2.40339 sec

finished writing particle file...

Finished with SUBFIND.  (total time=4613.84 sec)

Finished computing FoF groups.  (presently allocated=1202.95 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=180305
After=200225
NTopleaves= 175197  NTopnodes=200225 (space for 244687)
gravity work-load balance=1.00057   memory-balance=1.00057   SPH work-load balance=0
iter=0 exchange of 0273282598 particles (ret=0)
domain decomposition done. (took 4.17996 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.03531 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 16: endrun called with an error level of 124


task 16: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
task 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
task 128: endrun called with an error level of 124


task 128: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
task 160: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
task 160: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
task 176: endrun called with an error level of 124


task 176: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
task 192: endrun called with an error level of 124


task 192: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
Finished FOF, total time doing fof/subfind = 4669.63 s
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.35 Mb (on task=112), Smallest =   62645.84 Mb (on task=0), Average =   62686.74 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1886.23 Mb (on task=0), Smallest =    1798.71 Mb (on task=112), Average =    1845.34 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16342.36 Mb (on task=0), Average =   16352.23 Mb
AllocMem:	 Largest =    1886.23 Mb (on task=0), Smallest =    1798.71 Mb (on task=112), Average =    1845.34 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_023_z000p199/snap_023_z000p199.0.hdf5' on task=0 (contains 17408704 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  17073109  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):      9580  (tot=     0000303834) masstab=0
Type 3 (bulge):   326015  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.834624

Setting next time for line of sight file to Time_next= 0.836046

Setting next time for snipshot file to Time_next= 0.841907

Setting next time for fof output to Time_next= 0.841907
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.19298 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=194345
After=197817
NTopleaves= 173090  NTopnodes=197817 (space for 244687)
gravity work-load balance=1.00036   memory-balance=1.00036   SPH work-load balance=0
iter=0 exchange of 0273241485 particles (ret=0)
domain decomposition done. (took 10.401 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.14554 MByte in top-level domain structure

Allocated 503.103 MByte for BH-tree, and 0.660286 Mbyte for top-leaves.  (presently allocted 1706.59 MB)

Begin Ngb-tree construction.
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1752.76 Mbyte (on task=58), Smallest = 1752.68 Mbyte, Average = 1752.75 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  58 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
  58 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
  58 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
  58 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
  58 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
  58 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
  58 2972 0          TopNodes      9.8100    1202.8250  domain_allocate()/domain.c/570
  58 2973 0   DomainNodeIndex      0.6603    1203.4853  force_treeallocate()/forcetree.c/4800
  58 2974 0        Nodes_base    258.4047    1461.8900  force_treeallocate()/forcetree.c/4803
  58 2975 0     Extnodes_base    215.3372    1677.2272  force_treeallocate()/forcetree.c/4811
  58 2976 0          Nextnode     15.0578    1692.2850  force_treeallocate()/forcetree.c/4820
  58 2977 0            Father     14.3032    1706.5882  force_treeallocate()/forcetree.c/4827
  58 2978 0           Ngblist      4.0881    1710.6763  density()/density.c/690
  58 2979 0              Left      8.1762    1718.8525  density()/density.c/692
  58 2980 0             Right      8.1762    1727.0288  density()/density.c/693
  58 2981 0    DataIndexTable      7.0175    1734.0463  density()/density.c/738
  58 2982 0      DataNodeList     18.7134    1752.7598  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.155.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.211.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.59 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=180385
After=199633
NTopleaves= 174679  NTopnodes=199633 (space for 244687)
gravity work-load balance=1.00044   memory-balance=1.00044   SPH work-load balance=0
iter=0 exchange of 0273271437 particles (ret=0)
domain decomposition done. (took 3.88014 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.06241 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1202.91 MB)
Tree construction.

Start linking particles (presently allocated=1756.05 MB)
links on local processor done (took 10.0302 sec).
Marked=0065400564 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1857.66 MB) 
have done 0000986089 cross links (processed 0065400564, took 5.92881 sec)
have done 0000441557 cross links (processed 0051818016, took 5.26494 sec)
have done 0000319598 cross links (processed 0043456839, took 5.33508 sec)
have done 0000221230 cross links (processed 0032443490, took 3.31995 sec)
have done 0000147013 cross links (processed 0023738880, took 4.63006 sec)
have done 0000094623 cross links (processed 0014928304, took 4.13343 sec)
have done 0000059386 cross links (processed 0009630120, took 3.56475 sec)
have done 0000038770 cross links (processed 0004809166, took 2.85392 sec)
have done 0000018728 cross links (processed 0000866401, took 0.483783 sec)
have done 0000007193 cross links (processed 0000149017, took 0.0899019 sec)
have done 0000002952 cross links (processed 0000052259, took 0.0655148 sec)
have done 0000001190 cross links (processed 0000017745, took 0.0569818 sec)
have done 0000000542 cross links (processed 0000011418, took 0.0625179 sec)
have done 0000000381 cross links (processed 0000013111, took 0.052995 sec)
have done 0000000128 cross links (processed 0000002388, took 0.0453279 sec)
have done 0000000053 cross links (processed 0000000671, took 0.0444741 sec)
have done 0000000031 cross links (processed 0000000331, took 0.0443811 sec)
have done 0000000009 cross links (processed 0000000166, took 0.0444469 sec)
have done 0000000004 cross links (processed 0000000037, took 0.0443659 sec)
have done 0000000000 cross links (processed 0000000007, took 0.044389 sec)
Local groups found.

group finding took = 46.2479 sec
Start finding nearest dm-particle (presently allocated=1756.05 MB)
still finding nearest... (presently allocated=1845.51 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.111782 sec
compiling local group data and catalogue took = 0.605168 sec

Total number of groups with at least 32 particles: 192249
Largest group has 12357778 particles.
Total number of particles in groups: 0145201640

group properties are now allocated.. (presently allocated=1269.46 MB)
computation of group properties took = 0.0789552 sec
start global sorting of group catalogues number 23
LargestGroup = 9727.662307; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0524049 sec
Group catalogues globally sorted. took = 0.872122 sec
starting saving of group catalogue number 23
data//groups_023_z000p199
Group catalogues number 23 saved. took = 2.39137 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.721974 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.267124 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.714441 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0192306597 particles. (took 20.4624 sec)
ngb iteration 2: need to repeat for 0149117392 particles. (took 9.91973 sec)
ngb iteration 3: need to repeat for 0130460250 particles. (took 7.02417 sec)
ngb iteration 4: need to repeat for 0118445223 particles. (took 5.76508 sec)
ngb iteration 5: need to repeat for 0105678884 particles. (took 5.13075 sec)
ngb iteration 6: need to repeat for 0088015504 particles. (took 4.56016 sec)
ngb iteration 7: need to repeat for 0066363158 particles. (took 3.90215 sec)
ngb iteration 8: need to repeat for 0045460841 particles. (took 3.12378 sec)
ngb iteration 9: need to repeat for 0028916810 particles. (took 2.28289 sec)
ngb iteration 10: need to repeat for 0017490083 particles. (took 1.58223 sec)
ngb iteration 11: need to repeat for 0010260092 particles. (took 1.00882 sec)
ngb iteration 12: need to repeat for 0005931142 particles. (took 0.614491 sec)
ngb iteration 13: need to repeat for 0003416649 particles. (took 0.380019 sec)
ngb iteration 14: need to repeat for 0001874711 particles. (took 0.268106 sec)
ngb iteration 15: need to repeat for 0000896797 particles. (took 0.173199 sec)
ngb iteration 16: need to repeat for 0000469108 particles. (took 0.106582 sec)
ngb iteration 17: need to repeat for 0000258023 particles. (took 0.076616 sec)
ngb iteration 18: need to repeat for 0000144360 particles. (took 0.061703 sec)
ngb iteration 19: need to repeat for 0000080165 particles. (took 0.0532079 sec)
ngb iteration 20: need to repeat for 0000043627 particles. (took 0.0484169 sec)
ngb iteration 21: need to repeat for 0000022745 particles. (took 0.0452919 sec)
ngb iteration 22: need to repeat for 0000011296 particles. (took 0.0428541 sec)
ngb iteration 23: need to repeat for 0000005400 particles. (took 0.0416579 sec)
ngb iteration 24: need to repeat for 0000002500 particles. (took 0.0408368 sec)
ngb iteration 25: need to repeat for 0000001068 particles. (took 0.0405231 sec)
ngb iteration 26: need to repeat for 0000000455 particles. (took 0.0401289 sec)
ngb iteration 27: need to repeat for 0000000163 particles. (took 0.0399818 sec)
ngb iteration 28: need to repeat for 0000000048 particles. (took 0.0399971 sec)
ngb iteration 29: need to repeat for 0000000012 particles. (took 0.040055 sec)
ngb iteration 30: need to repeat for 0000000004 particles. (took 0.040004 sec)
ngb iteration 31: need to repeat for 0000000001 particles. (took 0.039983 sec)
final operations ... 
density and smoothing length for species 1 took 67.359 sec
Tree construction.
tree build took 0.723518 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.266849 sec
Tree construction.
tree build took 0.73546 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.271756 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.174333 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 2.04324 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.719003 sec
density() of species 1 took 1.90735e-06 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.170979 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 2.10105 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.17445 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 2.04505 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.977894 sec
saving densities took 2.63965 sec

Number of FOF halos treated with collective SubFind code = 6
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 192243 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 18840 - 63683252 

subfind_exchange()() took 1.75214 sec

collectively doing halo 1, num=23
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2636.29 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2695.84 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 2695.84 Mbyte (on task=0), Smallest = 1352.17 Mbyte, Average = 1390.53 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9000    1202.9140  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5299    1227.4439  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8831    1268.3270  fof_fof()/fof.c/337
   0 2975 0             Group      1.1320    1269.4590  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1366.8267    2636.2857  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    2648.5450  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    2677.1514  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    2678.0965  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    2679.0300  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    2679.9634  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    2680.8968  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    2681.8341  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    2682.7714  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    2695.8391  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=130721
After=166673
NTopleaves= 145839  NTopnodes=166673 (space for 244687)
gravity work-load balance=1.00057   memory-balance=1.00057   SPH work-load balance=0
iter=0 exchange of 0012312629 particles (ret=0)
domain decomposition done. (took 1.13899 sec)
Freed 3.5712 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 3142.99 Mbyte (on task=0), Smallest = 1799.32 Mbyte, Average = 1837.68 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9000    1202.9140  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5299    1227.4439  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8831    1268.3270  fof_fof()/fof.c/337
   0 2975 0             Group      1.1320    1269.4590  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1366.8267    2636.2857  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.2655    2644.6762  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5563    2645.2325  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    255.5533    2900.7859  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base    212.9611    3113.7470  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9390    3128.6860  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    3142.9892  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.64682 sec  (presently allocated=3142.99 MB)
force_treebuild() took 2.06734 sec (presently allocated=3142.99 MB)
Start find_linkngb (48142 particles on task=0)
find linkngb iteration 1: need to repeat for 0011738081 particles. (took 1.02127 sec)
find linkngb iteration 2: need to repeat for 0010720037 particles. (took 0.693452 sec)
find linkngb iteration 3: need to repeat for 0010224261 particles. (took 0.473787 sec)
find linkngb iteration 4: need to repeat for 0008939690 particles. (took 0.535653 sec)
find linkngb iteration 5: need to repeat for 0007425829 particles. (took 0.458222 sec)
find linkngb iteration 6: need to repeat for 0005377105 particles. (took 0.376665 sec)
find linkngb iteration 7: need to repeat for 0003383976 particles. (took 0.266897 sec)
find linkngb iteration 8: need to repeat for 0001924369 particles. (took 0.167105 sec)
find linkngb iteration 9: need to repeat for 0001028953 particles. (took 0.102819 sec)
find linkngb iteration 10: need to repeat for 0000532221 particles. (took 0.0616422 sec)
find linkngb iteration 11: need to repeat for 0000270353 particles. (took 0.037766 sec)
find linkngb iteration 12: need to repeat for 0000057598 particles. (took 0.0240059 sec)
find linkngb iteration 13: need to repeat for 0000001212 particles. (took 0.0109899 sec)
find linkngb iteration 14: need to repeat for 0000000379 particles. (took 0.000962973 sec)
find linkngb iteration 15: need to repeat for 0000000139 particles. (took 0.000571966 sec)
find linkngb iteration 16: need to repeat for 0000000038 particles. (took 0.00048399 sec)
find linkngb iteration 17: need to repeat for 0000000013 particles. (took 0.000466108 sec)
find linkngb iteration 18: need to repeat for 0000000003 particles. (took 0.000452042 sec)
find_linkngb() took 4.23518 sec
Start finding nearest two (48142 particles on task=0)
find_nearesttwo() took 0.771809 sec (presently allocated=3146.66 MB)
parallel sort of densities done. took 0.0768399 sec
building distributed linked list. (presently allocated 3146.18 MB)
identification of primary candidates took 307.739 sec
adding background as candidate took 0.159218 sec
establishing of rank order took 95.439 sec  (p=12357778, grouplen=12357778) presently allocated 3146.18 MB

total number of subhalo candidates=60717

number of subhalo candidates that can be done independently=53070.
(Largest size is 5570, finding them took 0.016408 sec)
particles are marked (took 72.8842)
independent subhalos are assembled on individual CPUs for unbinding (0.227247 sec, (presently allocated=3146.18 MB)
unbinding of independent ones took 0.128285 sec
particles have returned to their original processor (0.307548 sec, presently allocated 3146.18 MB)

number of subhalo candidates that can be done independently=7060.
(Largest size is 26882, finding them took 1.23361 sec)
particles are marked (took 46.9188)
independent subhalos are assembled on individual CPUs for unbinding (0.212576 sec, (presently allocated=3146.18 MB)
unbinding of independent ones took 0.731286 sec
particles have returned to their original processor (0.285723 sec, presently allocated 3146.18 MB)

number of subhalo candidates that can be done independently=550.
(Largest size is 143625, finding them took 1.21826 sec)
particles are marked (took 39.6484)
independent subhalos are assembled on individual CPUs for unbinding (0.198419 sec, (presently allocated=3146.18 MB)
unbinding of independent ones took 4.22322 sec
particles have returned to their original processor (0.285096 sec, presently allocated 3146.18 MB)

number of subhalo candidates that can be done independently=33.
(Largest size is 438312, finding them took 0.890984 sec)
particles are marked (took 30.3754)
independent subhalos are assembled on individual CPUs for unbinding (0.185513 sec, (presently allocated=3146.18 MB)
unbinding of independent ones took 2.19677 sec
particles have returned to their original processor (0.273506 sec, presently allocated 3146.18 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 438312, finding them took 0.653582 sec)
too few, I do the rest of 4 collectively

collective unbinding of nr=0 (4) of length=438312 ... maximum alloacted 3146.37 MB
took 9.83094 sec
collective unbinding of nr=1 (4) of length=216625 ... maximum alloacted 3146.37 MB
took 4.62748 sec
collective unbinding of nr=2 (4) of length=280723 ... maximum alloacted 3146.37 MB
took 6.76967 sec
collective unbinding of nr=3 (4) of length=12357778 ... maximum alloacted 3146.37 MB
took 207.571 sec

the collective unbinding of remaining halos took 255.412 sec

found 3631 bound substructures in FoF group of length 12357778
determination of parent subhalo took 0.0497651 sec (presently allocated 3146.37 MB)
determining substructure properties took 241.935 sec (presently allocated 3146.37 MB)

collectively doing halo 2, num=23
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2636.29 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2695.84 MB)
Before=133273
After=164681
NTopleaves= 144096  NTopnodes=164681 (space for 244687)
gravity work-load balance=1.00063   memory-balance=1.00063   SPH work-load balance=0
iter=0 exchange of 0011101300 particles (ret=0)
domain decomposition done. (took 1.14092 sec)
Freed 3.66238 MByte in top-level domain structure
coldomain_Decomposition() took 1.63777 sec  (presently allocated=3142.54 MB)
force_treebuild() took 2.02473 sec (presently allocated=3142.54 MB)
Start find_linkngb (43528 particles on task=0)
find linkngb iteration 1: need to repeat for 0010661628 particles. (took 0.877477 sec)
find linkngb iteration 2: need to repeat for 0009797118 particles. (took 0.614369 sec)
find linkngb iteration 3: need to repeat for 0009342490 particles. (took 0.416341 sec)
find linkngb iteration 4: need to repeat for 0008183008 particles. (took 0.472147 sec)
find linkngb iteration 5: need to repeat for 0006795356 particles. (took 0.403328 sec)
find linkngb iteration 6: need to repeat for 0004919032 particles. (took 0.33027 sec)
find linkngb iteration 7: need to repeat for 0003092914 particles. (took 0.234624 sec)
find linkngb iteration 8: need to repeat for 0001760130 particles. (took 0.149371 sec)
find linkngb iteration 9: need to repeat for 0000943855 particles. (took 0.0918632 sec)
find linkngb iteration 10: need to repeat for 0000489371 particles. (took 0.0555329 sec)
find linkngb iteration 11: need to repeat for 0000248657 particles. (took 0.0349641 sec)
find linkngb iteration 12: need to repeat for 0000052746 particles. (took 0.0225 sec)
find linkngb iteration 13: need to repeat for 0000001259 particles. (took 0.011281 sec)
find linkngb iteration 14: need to repeat for 0000000391 particles. (took 0.000916004 sec)
find linkngb iteration 15: need to repeat for 0000000157 particles. (took 0.000586987 sec)
find linkngb iteration 16: need to repeat for 0000000043 particles. (took 0.000519037 sec)
find linkngb iteration 17: need to repeat for 0000000013 particles. (took 0.000482798 sec)
find linkngb iteration 18: need to repeat for 0000000002 particles. (took 0.000446081 sec)
find_linkngb() took 3.7181 sec
Start finding nearest two (43528 particles on task=0)
find_nearesttwo() took 0.709513 sec (presently allocated=3145.86 MB)
parallel sort of densities done. took 0.101382 sec
building distributed linked list. (presently allocated 3145.43 MB)
identification of primary candidates took 277.388 sec
adding background as candidate took 0.159905 sec
establishing of rank order took 85.7175 sec  (p=11143112, grouplen=11143112) presently allocated 3145.43 MB

total number of subhalo candidates=54133

number of subhalo candidates that can be done independently=47207.
(Largest size is 3051, finding them took 0.014559 sec)
particles are marked (took 65.1592)
independent subhalos are assembled on individual CPUs for unbinding (0.220014 sec, (presently allocated=3145.43 MB)
unbinding of independent ones took 0.0733728 sec
particles have returned to their original processor (0.299424 sec, presently allocated 3145.43 MB)

number of subhalo candidates that can be done independently=6343.
(Largest size is 14735, finding them took 1.20121 sec)
particles are marked (took 43.7572)
independent subhalos are assembled on individual CPUs for unbinding (0.205099 sec, (presently allocated=3145.43 MB)
unbinding of independent ones took 0.522519 sec
particles have returned to their original processor (0.288272 sec, presently allocated 3145.43 MB)

number of subhalo candidates that can be done independently=533.
(Largest size is 78090, finding them took 1.19112 sec)
particles are marked (took 35.0422)
independent subhalos are assembled on individual CPUs for unbinding (0.196492 sec, (presently allocated=3145.43 MB)
unbinding of independent ones took 2.26795 sec
particles have returned to their original processor (0.280304 sec, presently allocated 3145.43 MB)

number of subhalo candidates that can be done independently=45.
(Largest size is 250180, finding them took 1.06248 sec)
particles are marked (took 31.9117)
independent subhalos are assembled on individual CPUs for unbinding (0.192924 sec, (presently allocated=3145.43 MB)
unbinding of independent ones took 4.49544 sec
particles have returned to their original processor (0.282042 sec, presently allocated 3145.43 MB)

number of subhalo candidates that can be done independently=3.
(Largest size is 250180, finding them took 0.646967 sec)
particles are marked (took 25.5202)
independent subhalos are assembled on individual CPUs for unbinding (0.178569 sec, (presently allocated=3145.43 MB)
unbinding of independent ones took 1.17429 sec
particles have returned to their original processor (0.262124 sec, presently allocated 3145.43 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 250180, finding them took 0.644346 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=250180 ... maximum alloacted 3145.6 MB
took 7.47126 sec
collective unbinding of nr=1 (2) of length=11143112 ... maximum alloacted 3145.6 MB
took 186.036 sec

the collective unbinding of remaining halos took 217.223 sec

found 3684 bound substructures in FoF group of length 11143112
determination of parent subhalo took 0.0485148 sec (presently allocated 3145.6 MB)
determining substructure properties took 221.78 sec (presently allocated 3145.6 MB)

collectively doing halo 3, num=23
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2636.29 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2695.84 MB)
Before=137041
After=166889
NTopleaves= 146028  NTopnodes=166889 (space for 244687)
gravity work-load balance=1.00054   memory-balance=1.00054   SPH work-load balance=0
iter=0 exchange of 0007048296 particles (ret=0)
domain decomposition done. (took 1.09362 sec)
Freed 3.56131 MByte in top-level domain structure
coldomain_Decomposition() took 1.5917 sec  (presently allocated=3143.04 MB)
force_treebuild() took 2.02682 sec (presently allocated=3143.04 MB)
Start find_linkngb (27656 particles on task=0)
find linkngb iteration 1: need to repeat for 0006944670 particles. (took 0.550544 sec)
find linkngb iteration 2: need to repeat for 0006572449 particles. (took 0.381022 sec)
find linkngb iteration 3: need to repeat for 0006278323 particles. (took 0.258454 sec)
find linkngb iteration 4: need to repeat for 0005542846 particles. (took 0.29439 sec)
find linkngb iteration 5: need to repeat for 0004618012 particles. (took 0.250922 sec)
find linkngb iteration 6: need to repeat for 0003349393 particles. (took 0.205054 sec)
find linkngb iteration 7: need to repeat for 0002109334 particles. (took 0.14804 sec)
find linkngb iteration 8: need to repeat for 0001201110 particles. (took 0.0963969 sec)
find linkngb iteration 9: need to repeat for 0000644597 particles. (took 0.0609238 sec)
find linkngb iteration 10: need to repeat for 0000334510 particles. (took 0.038363 sec)
find linkngb iteration 11: need to repeat for 0000169920 particles. (took 0.024653 sec)
find linkngb iteration 12: need to repeat for 0000036310 particles. (took 0.0169051 sec)
find linkngb iteration 13: need to repeat for 0000000947 particles. (took 0.00902295 sec)
find linkngb iteration 14: need to repeat for 0000000314 particles. (took 0.000801086 sec)
find linkngb iteration 15: need to repeat for 0000000096 particles. (took 0.000500917 sec)
find linkngb iteration 16: need to repeat for 0000000031 particles. (took 0.000396967 sec)
find linkngb iteration 17: need to repeat for 0000000010 particles. (took 0.00039506 sec)
find linkngb iteration 18: need to repeat for 0000000005 particles. (took 0.000386953 sec)
find linkngb iteration 19: need to repeat for 0000000001 particles. (took 0.000379086 sec)
find_linkngb() took 2.3385 sec
Start finding nearest two (27656 particles on task=0)
find_nearesttwo() took 0.455359 sec (presently allocated=3145.15 MB)
parallel sort of densities done. took 0.0574582 sec
building distributed linked list. (presently allocated 3144.87 MB)
identification of primary candidates took 179.346 sec
adding background as candidate took 0.160564 sec
establishing of rank order took 58.2422 sec  (p=7076353, grouplen=7076353) presently allocated 3144.87 MB

total number of subhalo candidates=32786

number of subhalo candidates that can be done independently=28969.
(Largest size is 4449, finding them took 0.00878286 sec)
particles are marked (took 40.3415)
independent subhalos are assembled on individual CPUs for unbinding (0.196857 sec, (presently allocated=3144.87 MB)
unbinding of independent ones took 0.0834141 sec
particles have returned to their original processor (0.276644 sec, presently allocated 3144.87 MB)

number of subhalo candidates that can be done independently=3507.
(Largest size is 13577, finding them took 1.19847 sec)
particles are marked (took 26.0694)
independent subhalos are assembled on individual CPUs for unbinding (0.191756 sec, (presently allocated=3144.87 MB)
unbinding of independent ones took 0.264358 sec
particles have returned to their original processor (0.273616 sec, presently allocated 3144.87 MB)

number of subhalo candidates that can be done independently=280.
(Largest size is 158252, finding them took 1.19901 sec)
particles are marked (took 23.6407)
independent subhalos are assembled on individual CPUs for unbinding (0.216518 sec, (presently allocated=3144.87 MB)
unbinding of independent ones took 6.41844 sec
particles have returned to their original processor (0.308546 sec, presently allocated 3144.87 MB)

number of subhalo candidates that can be done independently=24.
(Largest size is 253151, finding them took 0.930541 sec)
particles are marked (took 17.751)
independent subhalos are assembled on individual CPUs for unbinding (0.18169 sec, (presently allocated=3144.87 MB)
unbinding of independent ones took 2.01745 sec
particles have returned to their original processor (0.26864 sec, presently allocated 3144.87 MB)

number of subhalo candidates that can be done independently=4.
(Largest size is 253151, finding them took 0.648669 sec)
particles are marked (took 16.1644)
independent subhalos are assembled on individual CPUs for unbinding (0.188727 sec, (presently allocated=3144.87 MB)
unbinding of independent ones took 1.0587 sec
particles have returned to their original processor (0.267639 sec, presently allocated 3144.87 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 253151, finding them took 0.592218 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=253151 ... maximum alloacted 3144.98 MB
took 5.16708 sec
collective unbinding of nr=1 (2) of length=7076353 ... maximum alloacted 3144.98 MB
took 120.033 sec

the collective unbinding of remaining halos took 139.528 sec

found 2504 bound substructures in FoF group of length 7076353
determination of parent subhalo took 0.0425241 sec (presently allocated 3144.98 MB)
determining substructure properties took 146.687 sec (presently allocated 3144.98 MB)

collectively doing halo 4, num=23
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2636.29 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2695.84 MB)
Before=141849
After=166513
NTopleaves= 145699  NTopnodes=166513 (space for 244687)
gravity work-load balance=1.00059   memory-balance=1.00059   SPH work-load balance=0
iter=0 exchange of 0005883034 particles (ret=0)
domain decomposition done. (took 1.07636 sec)
Freed 3.57852 MByte in top-level domain structure
coldomain_Decomposition() took 1.57683 sec  (presently allocated=3142.95 MB)
force_treebuild() took 2.05304 sec (presently allocated=3142.95 MB)
Start find_linkngb (22958 particles on task=0)
find linkngb iteration 1: need to repeat for 0005834897 particles. (took 0.453142 sec)
find linkngb iteration 2: need to repeat for 0005601686 particles. (took 0.306126 sec)
find linkngb iteration 3: need to repeat for 0005355537 particles. (took 0.207191 sec)
find linkngb iteration 4: need to repeat for 0004750216 particles. (took 0.238441 sec)
find linkngb iteration 5: need to repeat for 0003970533 particles. (took 0.202088 sec)
find linkngb iteration 6: need to repeat for 0002887193 particles. (took 0.168155 sec)
find linkngb iteration 7: need to repeat for 0001820277 particles. (took 0.12303 sec)
find linkngb iteration 8: need to repeat for 0001036418 particles. (took 0.081491 sec)
find linkngb iteration 9: need to repeat for 0000556103 particles. (took 0.051877 sec)
find linkngb iteration 10: need to repeat for 0000288090 particles. (took 0.0330789 sec)
find linkngb iteration 11: need to repeat for 0000146371 particles. (took 0.0219409 sec)
find linkngb iteration 12: need to repeat for 0000031605 particles. (took 0.0156372 sec)
find linkngb iteration 13: need to repeat for 0000000820 particles. (took 0.00862789 sec)
find linkngb iteration 14: need to repeat for 0000000249 particles. (took 0.000683069 sec)
find linkngb iteration 15: need to repeat for 0000000092 particles. (took 0.000473976 sec)
find linkngb iteration 16: need to repeat for 0000000016 particles. (took 0.000411987 sec)
find linkngb iteration 17: need to repeat for 0000000004 particles. (took 0.000355005 sec)
find linkngb iteration 18: need to repeat for 0000000001 particles. (took 0.000362873 sec)
find_linkngb() took 1.914 sec
Start finding nearest two (22958 particles on task=0)
find_nearesttwo() took 0.381849 sec (presently allocated=3144.7 MB)
parallel sort of densities done. took 0.0536001 sec
building distributed linked list. (presently allocated 3144.48 MB)
identification of primary candidates took 152.233 sec
adding background as candidate took 0.157302 sec
establishing of rank order took 47.7941 sec  (p=5902208, grouplen=5902208) presently allocated 3144.48 MB

total number of subhalo candidates=26168

number of subhalo candidates that can be done independently=23181.
(Largest size is 1704, finding them took 0.00698614 sec)
particles are marked (took 32.0733)
independent subhalos are assembled on individual CPUs for unbinding (0.192063 sec, (presently allocated=3144.48 MB)
unbinding of independent ones took 0.034265 sec
particles have returned to their original processor (0.274703 sec, presently allocated 3144.48 MB)

number of subhalo candidates that can be done independently=2772.
(Largest size is 14820, finding them took 1.20416 sec)
particles are marked (took 21.6412)
independent subhalos are assembled on individual CPUs for unbinding (0.192294 sec, (presently allocated=3144.48 MB)
unbinding of independent ones took 0.38955 sec
particles have returned to their original processor (0.274995 sec, presently allocated 3144.48 MB)

number of subhalo candidates that can be done independently=200.
(Largest size is 109862, finding them took 0.993653 sec)
particles are marked (took 18.6289)
independent subhalos are assembled on individual CPUs for unbinding (0.192485 sec, (presently allocated=3144.48 MB)
unbinding of independent ones took 3.93242 sec
particles have returned to their original processor (0.287845 sec, presently allocated 3144.48 MB)

number of subhalo candidates that can be done independently=12.
(Largest size is 329111, finding them took 0.656584 sec)
particles are marked (took 13.665)
independent subhalos are assembled on individual CPUs for unbinding (0.194634 sec, (presently allocated=3144.48 MB)
unbinding of independent ones took 2.86688 sec
particles have returned to their original processor (0.295357 sec, presently allocated 3144.48 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 329111, finding them took 0.648896 sec)
particles are marked (took 12.6698)
independent subhalos are assembled on individual CPUs for unbinding (0.177804 sec, (presently allocated=3144.48 MB)
unbinding of independent ones took 0.996344 sec
particles have returned to their original processor (0.263529 sec, presently allocated 3144.48 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 329111, finding them took 0.552194 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=329111 ... maximum alloacted 3144.56 MB
took 6.38976 sec
collective unbinding of nr=1 (2) of length=5902208 ... maximum alloacted 3144.56 MB
took 112.397 sec

the collective unbinding of remaining halos took 130.293 sec

found 2198 bound substructures in FoF group of length 5902208
determination of parent subhalo took 0.0400491 sec (presently allocated 3144.56 MB)
determining substructure properties took 124.5 sec (presently allocated 3144.56 MB)

collectively doing halo 5, num=23
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2636.29 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2695.84 MB)
Before=138985
After=160961
NTopleaves= 140841  NTopnodes=160961 (space for 244687)
gravity work-load balance=1.00047   memory-balance=1.00047   SPH work-load balance=0
iter=0 exchange of 0004042489 particles (ret=0)
domain decomposition done. (took 1.07217 sec)
Freed 3.83267 MByte in top-level domain structure
coldomain_Decomposition() took 1.57522 sec  (presently allocated=3141.71 MB)
force_treebuild() took 2.06271 sec (presently allocated=3141.71 MB)
Start find_linkngb (15866 particles on task=0)
find linkngb iteration 1: need to repeat for 0004038463 particles. (took 0.302245 sec)
find linkngb iteration 2: need to repeat for 0003936895 particles. (took 0.198041 sec)
find linkngb iteration 3: need to repeat for 0003771807 particles. (took 0.136747 sec)
find linkngb iteration 4: need to repeat for 0003367036 particles. (took 0.155943 sec)
find linkngb iteration 5: need to repeat for 0002818822 particles. (took 0.134225 sec)
find linkngb iteration 6: need to repeat for 0002051462 particles. (took 0.113851 sec)
find linkngb iteration 7: need to repeat for 0001294380 particles. (took 0.084722 sec)
find linkngb iteration 8: need to repeat for 0000737405 particles. (took 0.0573401 sec)
find linkngb iteration 9: need to repeat for 0000396249 particles. (took 0.0377569 sec)
find linkngb iteration 10: need to repeat for 0000206482 particles. (took 0.024653 sec)
find linkngb iteration 11: need to repeat for 0000104705 particles. (took 0.0173969 sec)
find linkngb iteration 12: need to repeat for 0000023005 particles. (took 0.0128701 sec)
find linkngb iteration 13: need to repeat for 0000000742 particles. (took 0.00756502 sec)
find linkngb iteration 14: need to repeat for 0000000245 particles. (took 0.000627041 sec)
find linkngb iteration 15: need to repeat for 0000000086 particles. (took 0.000427961 sec)
find linkngb iteration 16: need to repeat for 0000000028 particles. (took 0.00039196 sec)
find linkngb iteration 17: need to repeat for 0000000004 particles. (took 0.000371933 sec)
find_linkngb() took 1.28604 sec
Start finding nearest two (15866 particles on task=0)
find_nearesttwo() took 0.266025 sec (presently allocated=3142.92 MB)
parallel sort of densities done. took 0.048399 sec
building distributed linked list. (presently allocated 3142.76 MB)
identification of primary candidates took 105.742 sec
adding background as candidate took 0.159838 sec
establishing of rank order took 33.1012 sec  (p=4059768, grouplen=4059768) presently allocated 3142.76 MB

total number of subhalo candidates=17939

number of subhalo candidates that can be done independently=15943.
(Largest size is 4467, finding them took 0.00491905 sec)
particles are marked (took 22.4169)
independent subhalos are assembled on individual CPUs for unbinding (0.186739 sec, (presently allocated=3142.76 MB)
unbinding of independent ones took 0.0925131 sec
particles have returned to their original processor (0.269115 sec, presently allocated 3142.76 MB)

number of subhalo candidates that can be done independently=1834.
(Largest size is 11925, finding them took 1.22259 sec)
particles are marked (took 15.1082)
independent subhalos are assembled on individual CPUs for unbinding (0.186841 sec, (presently allocated=3142.76 MB)
unbinding of independent ones took 0.234824 sec
particles have returned to their original processor (0.271671 sec, presently allocated 3142.76 MB)

number of subhalo candidates that can be done independently=151.
(Largest size is 155662, finding them took 1.24101 sec)
particles are marked (took 13.7992)
independent subhalos are assembled on individual CPUs for unbinding (0.196451 sec, (presently allocated=3142.76 MB)
unbinding of independent ones took 4.36031 sec
particles have returned to their original processor (0.291104 sec, presently allocated 3142.76 MB)

number of subhalo candidates that can be done independently=9.
(Largest size is 82806, finding them took 0.659185 sec)
particles are marked (took 10.6192)
independent subhalos are assembled on individual CPUs for unbinding (0.182891 sec, (presently allocated=3142.76 MB)
unbinding of independent ones took 2.39002 sec
particles have returned to their original processor (0.278786 sec, presently allocated 3142.76 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 47931, finding them took 0.658431 sec)
particles are marked (took 8.97652)
independent subhalos are assembled on individual CPUs for unbinding (0.181739 sec, (presently allocated=3142.76 MB)
unbinding of independent ones took 0.866604 sec
particles have returned to their original processor (0.277492 sec, presently allocated 3142.76 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 4059768, finding them took 0.670367 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=4059768 ... maximum alloacted 3142.82 MB
took 69.5937 sec

the collective unbinding of remaining halos took 77.4922 sec

found 1509 bound substructures in FoF group of length 4059768
determination of parent subhalo took 0.0346091 sec (presently allocated 3142.82 MB)
determining substructure properties took 85.6513 sec (presently allocated 3142.82 MB)

collectively doing halo 6, num=23
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2636.29 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2695.84 MB)
Before=147841
After=171401
NTopleaves= 149976  NTopnodes=171401 (space for 244687)
gravity work-load balance=1.00053   memory-balance=1.00053   SPH work-load balance=0
iter=0 exchange of 0003032574 particles (ret=0)
domain decomposition done. (took 1.07206 sec)
Freed 3.35477 MByte in top-level domain structure
coldomain_Decomposition() took 1.5718 sec  (presently allocated=3144.05 MB)
force_treebuild() took 2.05854 sec (presently allocated=3144.05 MB)
Start find_linkngb (11891 particles on task=0)
find linkngb iteration 1: need to repeat for 0003036064 particles. (took 0.222123 sec)
find linkngb iteration 2: need to repeat for 0002981216 particles. (took 0.142153 sec)
find linkngb iteration 3: need to repeat for 0002860158 particles. (took 0.100201 sec)
find linkngb iteration 4: need to repeat for 0002563810 particles. (took 0.144416 sec)
find linkngb iteration 5: need to repeat for 0002151741 particles. (took 0.098865 sec)
find linkngb iteration 6: need to repeat for 0001569011 particles. (took 0.0865409 sec)
find linkngb iteration 7: need to repeat for 0000989353 particles. (took 0.0673132 sec)
find linkngb iteration 8: need to repeat for 0000564888 particles. (took 0.046598 sec)
find linkngb iteration 9: need to repeat for 0000303300 particles. (took 0.0301311 sec)
find linkngb iteration 10: need to repeat for 0000157199 particles. (took 0.0214229 sec)
find linkngb iteration 11: need to repeat for 0000079823 particles. (took 0.014981 sec)
find linkngb iteration 12: need to repeat for 0000017201 particles. (took 0.0117009 sec)
find linkngb iteration 13: need to repeat for 0000000491 particles. (took 0.00719213 sec)
find linkngb iteration 14: need to repeat for 0000000139 particles. (took 0.000569105 sec)
find linkngb iteration 15: need to repeat for 0000000057 particles. (took 0.000408888 sec)
find linkngb iteration 16: need to repeat for 0000000016 particles. (took 0.000360966 sec)
find linkngb iteration 17: need to repeat for 0000000002 particles. (took 0.000341177 sec)
find_linkngb() took 0.996142 sec
Start finding nearest two (11891 particles on task=0)
find_nearesttwo() took 0.197094 sec (presently allocated=3144.96 MB)
parallel sort of densities done. took 0.0466859 sec
building distributed linked list. (presently allocated 3144.84 MB)
identification of primary candidates took 84.4445 sec
adding background as candidate took 0.156044 sec
establishing of rank order took 25.382 sec  (p=3043004, grouplen=3043004) presently allocated 3144.84 MB

total number of subhalo candidates=12350

number of subhalo candidates that can be done independently=11145.
(Largest size is 3353, finding them took 0.00356698 sec)
particles are marked (took 15.7906)
independent subhalos are assembled on individual CPUs for unbinding (0.182069 sec, (presently allocated=3144.84 MB)
unbinding of independent ones took 0.062403 sec
particles have returned to their original processor (0.267343 sec, presently allocated 3144.84 MB)

number of subhalo candidates that can be done independently=1123.
(Largest size is 27965, finding them took 1.2156 sec)
particles are marked (took 10.0658)
independent subhalos are assembled on individual CPUs for unbinding (0.187382 sec, (presently allocated=3144.84 MB)
unbinding of independent ones took 0.870205 sec
particles have returned to their original processor (0.278424 sec, presently allocated 3144.84 MB)

number of subhalo candidates that can be done independently=73.
(Largest size is 32178, finding them took 1.17885 sec)
particles are marked (took 9.31707)
independent subhalos are assembled on individual CPUs for unbinding (0.188934 sec, (presently allocated=3144.84 MB)
unbinding of independent ones took 0.971895 sec
particles have returned to their original processor (0.283231 sec, presently allocated 3144.84 MB)

number of subhalo candidates that can be done independently=7.
(Largest size is 94454, finding them took 0.65595 sec)
particles are marked (took 8.58381)
independent subhalos are assembled on individual CPUs for unbinding (0.184554 sec, (presently allocated=3144.84 MB)
unbinding of independent ones took 2.94854 sec
particles have returned to their original processor (0.280235 sec, presently allocated 3144.84 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 515511, finding them took 0.661654 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=515511 ... maximum alloacted 3144.89 MB
took 13.6537 sec
collective unbinding of nr=1 (2) of length=3043004 ... maximum alloacted 3144.89 MB
took 58.2214 sec

the collective unbinding of remaining halos took 77.3804 sec

found 1118 bound substructures in FoF group of length 3043004
determination of parent subhalo took 0.034615 sec (presently allocated 3144.89 MB)
determining substructure properties took 70.435 sec (presently allocated 3144.89 MB)
processing of collective halos took 4156.03 sec
sort of local particles()() took 0.557083 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 359.091 sec

Task 246: testing particles ...
Task 247: testing particles ...
Task 121: testing particles ...
Task 4: testing particles ...
Task 187: testing particles ...
Task 122: testing particles ...
Task 169: testing particles ...
Task 215: testing particles ...
Task 198: testing particles ...
Task 223: testing particles ...
Task 235: testing particles ...
Task 236: testing particles ...
Task 2: testing particles ...
Task 245: testing particles ...
Task 251: testing particles ...
Task 1: testing particles ...
Task 227: testing particles ...
Task 208: testing particles ...
Task 5: testing particles ...
Task 164: testing particles ...
Task 117: testing particles ...
Task 239: testing particles ...
Task 228: testing particles ...
Task 232: testing particles ...
unsorting of local particles()() took 0.492929 sec
Task 0: testing particles ...
Task 230: testing particles ...
Task 249: testing particles ...
Task 237: testing particles ...
Task 182: testing particles ...
Task 199: testing particles ...
Task 248: testing particles ...
Task 184: testing particles ...
Task 185: testing particles ...
Task 207: testing particles ...
Task 254: testing particles ...
Task 178: testing particles ...
Task 231: testing particles ...
Task 3: testing particles ...
Task 148: testing particles ...
Task 186: testing particles ...
Task 241: testing particles ...
Task 100: testing particles ...
Task 200: testing particles ...
Task 243: testing particles ...
Task 158: testing particles ...
Task 157: testing particles ...
Task 211: testing particles ...
Task 229: testing particles ...
Task 159: testing particles ...
Task 108: testing particles ...
Task 222: testing particles ...
Task 219: testing particles ...
Task 160: testing particles ...
Task 224: testing particles ...
Task 143: testing particles ...
Task 170: testing particles ...
Task 220: testing particles ...
Task 225: testing particles ...
Task 138: testing particles ...
Task 177: testing particles ...
Task 163: testing particles ...
Task 242: testing particles ...
Task 103: testing particles ...
Task 145: testing particles ...
Task 214: testing particles ...
Task 150: testing particles ...
Task 175: testing particles ...
Task 202: testing particles ...
Task 179: testing particles ...
Task 205: testing particles ...
Task 134: testing particles ...
Task 221: testing particles ...
Task 155: testing particles ...
Task 201: testing particles ...
Task 140: testing particles ...
Task 216: testing particles ...
Task 95: testing particles ...
Task 193: testing particles ...
Task 146: testing particles ...
Task 133: testing particles ...
Task 124: testing particles ...
Task 209: testing particles ...
Task 142: testing particles ...
Task 135: testing particles ...
Task 217: testing particles ...
Task 92: testing particles ...
Task 190: testing particles ...
Task 255: testing particles ...
Task 141: testing particles ...
Task 168: testing particles ...
Task 98: testing particles ...
Task 165: testing particles ...
Task 86: testing particles ...
Task 126: testing particles ...
Task 240: testing particles ...
Task 188: testing particles ...
Task 250: testing particles ...
Task 84: testing particles ...
Task 194: testing particles ...
Task 192: testing particles ...
Task 125: testing particles ...
Task 181: testing particles ...
Task 252: testing particles ...
Task 174: testing particles ...
Task 197: testing particles ...
Task 77: testing particles ...
Task 137: testing particles ...
Task 89: testing particles ...
Task 113: testing particles ...
Task 123: testing particles ...
Task 116: testing particles ...
Task 162: testing particles ...
Task 114: testing particles ...
Task 107: testing particles ...
Task 203: testing particles ...
Task 83: testing particles ...
Task 180: testing particles ...
Task 112: testing particles ...
Task 196: testing particles ...
Task 167: testing particles ...
Task 166: testing particles ...
Task 80: testing particles ...
Task 151: testing particles ...
Task 210: testing particles ...
Task 147: testing particles ...
Task 206: testing particles ...
Task 226: testing particles ...
Task 110: testing particles ...
Task 131: testing particles ...
Task 149: testing particles ...
Task 238: testing particles ...
Task 97: testing particles ...
Task 171: testing particles ...
Task 105: testing particles ...
Task 218: testing particles ...
Task 154: testing particles ...
Task 136: testing particles ...
Task 213: testing particles ...
Task 96: testing particles ...
Task 115: testing particles ...
Task 99: testing particles ...
Task 172: testing particles ...
Task 189: testing particles ...
Task 244: testing particles ...
Task 90: testing particles ...
Task 204: testing particles ...
Task 212: testing particles ...
Task 111: testing particles ...
Task 62: testing particles ...
Task 234: testing particles ...
Task 102: testing particles ...
Task 87: testing particles ...
Task 183: testing particles ...
Task 72: testing particles ...
Task 82: testing particles ...
Task 60: testing particles ...
Task 153: testing particles ...
Task 139: testing particles ...
Task 59: testing particles ...
Task 127: testing particles ...
Task 144: testing particles ...
Task 76: testing particles ...
Task 52: testing particles ...
Task 191: testing particles ...
Task 233: testing particles ...
Task 156: testing particles ...
Task 93: testing particles ...
Task 152: testing particles ...
Task 161: testing particles ...
Task 68: testing particles ...
Task 128: testing particles ...
Task 104: testing particles ...
Task 195: testing particles ...
Task 69: testing particles ...
Task 173: testing particles ...
Task 66: testing particles ...
Task 118: testing particles ...
Task 109: testing particles ...
Task 176: testing particles ...
Task 132: testing particles ...
Task 253: testing particles ...
Task 120: testing particles ...
Task 106: testing particles ...
Task 94: testing particles ...
Task 54: testing particles ...
Task 57: testing particles ...
Task 130: testing particles ...
Task 71: testing particles ...
Task 50: testing particles ...
Task 74: testing particles ...
Task 75: testing particles ...
Task 53: testing particles ...
Task 101: testing particles ...
Task 119: testing particles ...
Task 65: testing particles ...
Task 85: testing particles ...
Task 64: testing particles ...
Task 49: testing particles ...
Task 58: testing particles ...
Task 46: testing particles ...
Task 129: testing particles ...
Task 91: testing particles ...
Task 79: testing particles ...
Task 73: testing particles ...
Task 61: testing particles ...
Task 88: testing particles ...
Task 63: testing particles ...
Task 81: testing particles ...
Task 70: testing particles ...
Task 47: testing particles ...
Task 39: testing particles ...
Task 48: testing particles ...
Task 67: testing particles ...
Task 43: testing particles ...
Task 42: testing particles ...
Task 56: testing particles ...
Task 40: testing particles ...
Task 78: testing particles ...
Task 51: testing particles ...
Task 37: testing particles ...
Task 35: testing particles ...
Task 41: testing particles ...
Task 26: testing particles ...
Task 30: testing particles ...
Task 25: testing particles ...
Task 34: testing particles ...
Task 38: testing particles ...
Task 31: testing particles ...
Task 55: testing particles ...
Task 36: testing particles ...
Task 45: testing particles ...
Task 44: testing particles ...
Task 28: testing particles ...
Task 23: testing particles ...
Task 29: testing particles ...
Task 21: testing particles ...
Task 33: testing particles ...
Task 32: testing particles ...
Task 24: testing particles ...
Task 22: testing particles ...
Task 27: testing particles ...
Task 19: testing particles ...
Task 17: testing particles ...
Task 15: testing particles ...
Task 14: testing particles ...
Task 16: testing particles ...
Task 20: testing particles ...
Task 18: testing particles ...
Task 13: testing particles ...
Task 12: testing particles ...
Task 11: testing particles ...
Task 10: testing particles ...
Task 7: testing particles ...
Task 9: testing particles ...
Task 6: testing particles ...
Task 8: testing particles ...
subfind_exchange() (for return to original CPU)  took 3.8818 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2636.29 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=2695.84 MB)
Before=186281
After=203753
NTopleaves= 178284  NTopnodes=203753 (space for 244687)
gravity work-load balance=1.00036   memory-balance=1.00036   SPH work-load balance=0
iter=0 exchange of 0273476565 particles (ret=0)
domain decomposition done. (took 3.95467 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.87381 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000156484 particles. (took 0.024817 sec)
SO iteration 2: need to repeat for 0000156484 particles. (took 0.023149 sec)
SO iteration 3: need to repeat for 0000156484 particles. (took 0.02299 sec)
SO iteration 4: need to repeat for 0000156484 particles. (took 0.022742 sec)
SO iteration 5: need to repeat for 0000156484 particles. (took 0.0234301 sec)
SO iteration 6: need to repeat for 0000156484 particles. (took 0.0228062 sec)
SO iteration 7: need to repeat for 0000156484 particles. (took 0.0229039 sec)
SO iteration 8: need to repeat for 0000156484 particles. (took 0.023303 sec)
SO iteration 9: need to repeat for 0000156484 particles. (took 0.02303 sec)
SO iteration 10: need to repeat for 0000156484 particles. (took 0.0229368 sec)
SO iteration 11: need to repeat for 0000156484 particles. (took 0.0229321 sec)
SO iteration 12: need to repeat for 0000156484 particles. (took 0.0228989 sec)
SO iteration 13: need to repeat for 0000156484 particles. (took 0.0235648 sec)
SO iteration 14: need to repeat for 0000156484 particles. (took 0.0229731 sec)
SO iteration 15: need to repeat for 0000155947 particles. (took 0.0228519 sec)
SO iteration 16: need to repeat for 0000000425 particles. (took 0.0222208 sec)
SO iteration 17: need to repeat for 0000000052 particles. (took 0.000975132 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000576019 sec)
SO iteration 1: need to repeat for 0000156484 particles. (took 0.0232358 sec)
SO iteration 2: need to repeat for 0000156484 particles. (took 0.0205979 sec)
SO iteration 3: need to repeat for 0000156484 particles. (took 0.021282 sec)
SO iteration 4: need to repeat for 0000156484 particles. (took 0.020679 sec)
SO iteration 5: need to repeat for 0000156484 particles. (took 0.020802 sec)
SO iteration 6: need to repeat for 0000156484 particles. (took 0.0207682 sec)
SO iteration 7: need to repeat for 0000156484 particles. (took 0.020813 sec)
SO iteration 8: need to repeat for 0000156484 particles. (took 0.0206571 sec)
SO iteration 9: need to repeat for 0000156484 particles. (took 0.020752 sec)
SO iteration 10: need to repeat for 0000156484 particles. (took 0.0207479 sec)
SO iteration 11: need to repeat for 0000156484 particles. (took 0.020854 sec)
SO iteration 12: need to repeat for 0000156484 particles. (took 0.0207851 sec)
SO iteration 13: need to repeat for 0000156484 particles. (took 0.02071 sec)
SO iteration 14: need to repeat for 0000156484 particles. (took 0.0207009 sec)
SO iteration 15: need to repeat for 0000156342 particles. (took 0.0208311 sec)
SO iteration 16: need to repeat for 0000018205 particles. (took 0.020875 sec)
SO iteration 17: need to repeat for 0000000306 particles. (took 0.00648308 sec)
SO iteration 18: need to repeat for 0000000049 particles. (took 0.000813961 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000676155 sec)
SO iteration 1: need to repeat for 0000156484 particles. (took 0.022779 sec)
SO iteration 2: need to repeat for 0000156484 particles. (took 0.0203919 sec)
SO iteration 3: need to repeat for 0000156484 particles. (took 0.018738 sec)
SO iteration 4: need to repeat for 0000156484 particles. (took 0.0193892 sec)
SO iteration 5: need to repeat for 0000156484 particles. (took 0.019176 sec)
SO iteration 6: need to repeat for 0000156484 particles. (took 0.019197 sec)
SO iteration 7: need to repeat for 0000156484 particles. (took 0.0192442 sec)
SO iteration 8: need to repeat for 0000156484 particles. (took 0.019218 sec)
SO iteration 9: need to repeat for 0000156484 particles. (took 0.019248 sec)
SO iteration 10: need to repeat for 0000156484 particles. (took 0.019335 sec)
SO iteration 11: need to repeat for 0000156484 particles. (took 0.019803 sec)
SO iteration 12: need to repeat for 0000156484 particles. (took 0.0192719 sec)
SO iteration 13: need to repeat for 0000156484 particles. (took 0.019357 sec)
SO iteration 14: need to repeat for 0000156484 particles. (took 0.0192709 sec)
SO iteration 15: need to repeat for 0000156474 particles. (took 0.0193639 sec)
SO iteration 16: need to repeat for 0000156441 particles. (took 0.019213 sec)
SO iteration 17: need to repeat for 0000028151 particles. (took 0.021188 sec)
SO iteration 18: need to repeat for 0000000559 particles. (took 0.00742888 sec)
SO iteration 19: need to repeat for 0000000078 particles. (took 0.00102186 sec)
SO iteration 20: need to repeat for 0000000002 particles. (took 0.000705957 sec)
SO iteration 1: need to repeat for 0000156484 particles. (took 0.0233519 sec)
SO iteration 2: need to repeat for 0000156484 particles. (took 0.0206079 sec)
SO iteration 3: need to repeat for 0000156484 particles. (took 0.0216179 sec)
SO iteration 4: need to repeat for 0000156484 particles. (took 0.0222609 sec)
SO iteration 5: need to repeat for 0000156484 particles. (took 0.0220611 sec)
SO iteration 6: need to repeat for 0000156484 particles. (took 0.0226181 sec)
SO iteration 7: need to repeat for 0000156484 particles. (took 0.0228329 sec)
SO iteration 8: need to repeat for 0000156484 particles. (took 0.022172 sec)
SO iteration 9: need to repeat for 0000156484 particles. (took 0.0315881 sec)
SO iteration 10: need to repeat for 0000156484 particles. (took 0.0265632 sec)
SO iteration 11: need to repeat for 0000156484 particles. (took 0.0345669 sec)
SO iteration 12: need to repeat for 0000156484 particles. (took 0.0415289 sec)
SO iteration 13: need to repeat for 0000156484 particles. (took 0.0294881 sec)
SO iteration 14: need to repeat for 0000156484 particles. (took 0.0223629 sec)
SO iteration 15: need to repeat for 0000156158 particles. (took 0.0221572 sec)
SO iteration 16: need to repeat for 0000001505 particles. (took 0.0217979 sec)
SO iteration 17: need to repeat for 0000000094 particles. (took 0.00158596 sec)
SO iteration 18: need to repeat for 0000000010 particles. (took 0.000633955 sec)
SO iteration 1: need to repeat for 0000156484 particles. (took 0.022861 sec)
SO iteration 2: need to repeat for 0000156484 particles. (took 0.0205808 sec)
SO iteration 3: need to repeat for 0000156484 particles. (took 0.0213661 sec)
SO iteration 4: need to repeat for 0000156484 particles. (took 0.0206518 sec)
SO iteration 5: need to repeat for 0000156484 particles. (took 0.0219719 sec)
SO iteration 6: need to repeat for 0000156484 particles. (took 0.0209069 sec)
SO iteration 7: need to repeat for 0000156484 particles. (took 0.0209501 sec)
SO iteration 8: need to repeat for 0000156484 particles. (took 0.0209229 sec)
SO iteration 9: need to repeat for 0000156484 particles. (took 0.021194 sec)
SO iteration 10: need to repeat for 0000156484 particles. (took 0.0208972 sec)
SO iteration 11: need to repeat for 0000156484 particles. (took 0.0210369 sec)
SO iteration 12: need to repeat for 0000156484 particles. (took 0.0209539 sec)
SO iteration 13: need to repeat for 0000156484 particles. (took 0.0209739 sec)
SO iteration 14: need to repeat for 0000156484 particles. (took 0.0208468 sec)
SO iteration 15: need to repeat for 0000156322 particles. (took 0.020891 sec)
SO iteration 16: need to repeat for 0000013241 particles. (took 0.0205681 sec)
SO iteration 17: need to repeat for 0000000273 particles. (took 0.00536299 sec)
SO iteration 18: need to repeat for 0000000042 particles. (took 0.000772953 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000580072 sec)
SO iteration 1: need to repeat for 0000156484 particles. (took 0.0245669 sec)
SO iteration 2: need to repeat for 0000156484 particles. (took 0.0203471 sec)
SO iteration 3: need to repeat for 0000156484 particles. (took 0.0196991 sec)
SO iteration 4: need to repeat for 0000156484 particles. (took 0.0198979 sec)
SO iteration 5: need to repeat for 0000156484 particles. (took 0.0198901 sec)
SO iteration 6: need to repeat for 0000156484 particles. (took 0.019908 sec)
SO iteration 7: need to repeat for 0000156484 particles. (took 0.020123 sec)
SO iteration 8: need to repeat for 0000156484 particles. (took 0.020004 sec)
SO iteration 9: need to repeat for 0000156484 particles. (took 0.0202 sec)
SO iteration 10: need to repeat for 0000156484 particles. (took 0.0200839 sec)
SO iteration 11: need to repeat for 0000156484 particles. (took 0.020649 sec)
SO iteration 12: need to repeat for 0000156484 particles. (took 0.0201569 sec)
SO iteration 13: need to repeat for 0000156484 particles. (took 0.020083 sec)
SO iteration 14: need to repeat for 0000156484 particles. (took 0.0201199 sec)
SO iteration 15: need to repeat for 0000156453 particles. (took 0.0202789 sec)
SO iteration 16: need to repeat for 0000156315 particles. (took 0.0200691 sec)
SO iteration 17: need to repeat for 0000002377 particles. (took 0.020103 sec)
SO iteration 18: need to repeat for 0000000193 particles. (took 0.00168705 sec)
SO iteration 19: need to repeat for 0000000018 particles. (took 0.000748158 sec)
SO iteration 1: need to repeat for 0000156484 particles. (took 0.0228069 sec)
SO iteration 2: need to repeat for 0000156484 particles. (took 0.020596 sec)
SO iteration 3: need to repeat for 0000156484 particles. (took 0.018878 sec)
SO iteration 4: need to repeat for 0000156484 particles. (took 0.0176911 sec)
SO iteration 5: need to repeat for 0000156484 particles. (took 0.018652 sec)
SO iteration 6: need to repeat for 0000156484 particles. (took 0.0190771 sec)
SO iteration 7: need to repeat for 0000156484 particles. (took 0.018738 sec)
SO iteration 8: need to repeat for 0000156484 particles. (took 0.018436 sec)
SO iteration 9: need to repeat for 0000156484 particles. (took 0.0186841 sec)
SO iteration 10: need to repeat for 0000156484 particles. (took 0.0183878 sec)
SO iteration 11: need to repeat for 0000156484 particles. (took 0.0183642 sec)
SO iteration 12: need to repeat for 0000156484 particles. (took 0.0190921 sec)
SO iteration 13: need to repeat for 0000156484 particles. (took 0.0183671 sec)
SO iteration 14: need to repeat for 0000156484 particles. (took 0.0186849 sec)
SO iteration 15: need to repeat for 0000156481 particles. (took 0.0187509 sec)
SO iteration 16: need to repeat for 0000156472 particles. (took 0.018543 sec)
SO iteration 17: need to repeat for 0000156075 particles. (took 0.0184019 sec)
SO iteration 18: need to repeat for 0000007443 particles. (took 0.01841 sec)
SO iteration 19: need to repeat for 0000000253 particles. (took 0.00300908 sec)
SO iteration 20: need to repeat for 0000000023 particles. (took 0.000644922 sec)
determining spherical overdensity masses took 2.51232 sec
finding spherical overdensity particles took 0.553188 sec
determining contamination of halos took 0.262283 sec
Global sort of Groups took 0.17046 sec
Global sort of SubGroups took 0.831231 sec
Global sort of IDs took 0.551913 sec
Writing block 0 (GLEN), n=751, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3004d
Writing block 1 (GOFF), n=751, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3004d
Writing block 2 (MTOT), n=751, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3004d
Writing block 3 (GPOS), n=751, ptype=0, dtype=1, ndim=3, bpb=4 bytes=9012d
Writing block 4 (MMEA), n=751, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3004d
Writing block 5 (RMEA), n=751, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3004d
Writing block 6 (MCRI), n=751, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3004d
Writing block 7 (RCRI), n=751, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3004d
Writing block 8 (MTOP), n=751, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3004d
Writing block 9 (RTOP), n=751, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3004d
Writing block 17 (NCON), n=751, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3004d
Writing block 18 (MCON), n=751, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3004d
Writing block 22 (NSUB), n=751, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3004d
Writing block 23 (FSUB), n=751, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3004d
Writing block 24 (SLEN), n=4327, ptype=1, dtype=0, ndim=1, bpb=4 bytes=17308d
Writing block 25 (SOFF), n=4327, ptype=1, dtype=0, ndim=1, bpb=4 bytes=17308d
Writing block 27 (MSUB), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 28 (SPOS), n=4327, ptype=1, dtype=1, ndim=3, bpb=4 bytes=51924d
Writing block 29 (SVEL), n=4327, ptype=1, dtype=1, ndim=3, bpb=4 bytes=51924d
Writing block 30 (SCM ), n=4327, ptype=1, dtype=1, ndim=3, bpb=4 bytes=51924d
Writing block 33 (VMAX), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 34 (RMAX), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 35 (RHMS), n=4327, ptype=1, dtype=1, ndim=6, bpb=4 bytes=103848d
Writing block 36 (MTRH), n=4327, ptype=1, dtype=1, ndim=6, bpb=4 bytes=103848d
Writing block 37 (MBID), n=4327, ptype=1, dtype=2, ndim=1, bpb=8 bytes=34616d
Writing block 38 (GRNR), n=4327, ptype=1, dtype=0, ndim=1, bpb=4 bytes=17308d
Writing block 39 (SUBN), n=4327, ptype=1, dtype=0, ndim=1, bpb=4 bytes=17308d
Writing block 40 (SMST), n=4327, ptype=1, dtype=1, ndim=6, bpb=4 bytes=103848d
Writing block 53 (PID ), n=576401, ptype=2, dtype=2, ndim=1, bpb=8 bytes=4611208d
Writing block 54 (SLEN), n=4327, ptype=1, dtype=0, ndim=6, bpb=4 bytes=103848d
Writing block 55 (STEN), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 56 (SKEN), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 57 (SUEN), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 58 (SUIT), n=4327, ptype=1, dtype=1, ndim=9, bpb=4 bytes=155772d
Writing block 59 (BHMA), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 60 (BHMD), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 61 (SVD ), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 62 (SVDH), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 63 (HMPR), n=4327, ptype=1, dtype=1, ndim=6, bpb=4 bytes=103848d
Writing block 64 (SSFR), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 65 (SSA ), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 66 (SSBZ), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 67 (SSIM), n=4327, ptype=1, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 68 (SSPI), n=4327, ptype=4, dtype=1, ndim=3, bpb=4 bytes=51924d
Writing block 69 (GSPI), n=4327, ptype=1, dtype=1, ndim=3, bpb=4 bytes=51924d
Writing block 70 (FSPI), n=4327, ptype=5, dtype=1, ndim=3, bpb=4 bytes=51924d
Writing block 71 (SFM ), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 72 (SFMT), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 73 (SFME), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 74 (SFAE), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 75 (SFKE), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 76 (SFTE), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 77 (SMWP), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 78 (SMM ), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 79 (SMMS), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 80 (SFZ ), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 81 (SFZS), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 82 (SSIA), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 83 (SIAS), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 84 (SMET), n=4327, ptype=5, dtype=1, ndim=9, bpb=4 bytes=155772d
Writing block 85 (SMTS), n=4327, ptype=5, dtype=1, ndim=9, bpb=4 bytes=155772d
Writing block 86 (MF1 ), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 87 (MeF1), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 88 (MF  ), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 89 (MeF2), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 90 (MFA ), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 91 (MeFA), n=4327, ptype=5, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 92 (NSPI), n=4327, ptype=6, dtype=1, ndim=3, bpb=4 bytes=51924d
Writing block 93 (NFM ), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 94 (NFMT), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 95 (NFME), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 96 (NFAE), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 97 (NFKE), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 98 (NFTE), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 99 (SMWP), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 100 (SMM ), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 101 (SMMS), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 102 (SSIA), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 103 (SIAS), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 104 (SMET), n=4327, ptype=6, dtype=1, ndim=9, bpb=4 bytes=155772d
Writing block 105 (SMTS), n=4327, ptype=6, dtype=1, ndim=9, bpb=4 bytes=155772d
Writing block 106 (MF1 ), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 107 (MeF1), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 108 (MF2 ), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 109 (MeF2), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 110 (MFA ), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 111 (MeFA), n=4327, ptype=6, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 112 (SM  ), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 113 (SFKE), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 114 (SFAE), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 115 (SMWP), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 116 (SMM ), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 117 (SMMS), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 118 (SSIA), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 119 (SIAS), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 120 (SMET), n=4327, ptype=4, dtype=1, ndim=9, bpb=4 bytes=155772d
Writing block 121 (SMTS), n=4327, ptype=4, dtype=1, ndim=9, bpb=4 bytes=155772d
Writing block 122 (MF1 ), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 123 (MeF1), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 124 (MF2 ), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 125 (MeF2), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 126 (MFA ), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 127 (MeFA), n=4327, ptype=4, dtype=1, ndim=1, bpb=4 bytes=17308d
Writing block 128 (MMe5), n=751, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3004d
Writing block 129 (RMe5), n=751, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3004d
Writing block 130 (MCr5), n=751, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3004d
Writing block 131 (RCr5), n=751, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3004d
Writing block 132 (MMe2), n=751, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3004d
Writing block 133 (RMe2), n=751, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3004d
Writing block 134 (MCr2), n=751, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3004d
Writing block 135 (RCr2), n=751, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3004d
Writing block 136 (MAPT), n=4327, ptype=7, dtype=1, ndim=60, bpb=4 bytes=1038480d
Writing block 137 (SAPT), n=4327, ptype=8, dtype=1, ndim=10, bpb=4 bytes=173080d
Writing block 138 (VAPT), n=4327, ptype=9, dtype=1, ndim=10, bpb=4 bytes=173080d
Writing block 139 (BEGY), n=576401, ptype=2, dtype=1, ndim=1, bpb=4 bytes=2305604d
Subgroup catalogues saved. took = 7.07889 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 0.000000e+00
 eagle_ph_key_ort: type= 1 timed by volker 6.786568e-01
 eagle_ph_key_ort: type= 2 timed by volker 6.671596e-02
 eagle_ph_key_ort: type= 3 timed by volker 5.672598e-02
 eagle_ph_key_ort: type= 4 timed by volker 5.672598e-02
 eagle_ph_key_ort: type= 5 timed by volker 5.672598e-02
 eagle_ph_key_ort: timing parallel sort = 8.081431e-01
 eagle_fetch_elements: we are using 1081469324 bytes of memory, FreeBytes= 1351836656

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 2660.79 Mbyte (on task=0), Smallest = 1317.14 Mbyte, Average = 1355.49 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9000    1202.9140  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5299    1227.4439  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8831    1268.3270  fof_fof()/fof.c/337
   0 2975 0             Group      1.1320    1269.4590  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1366.8267    2636.2857  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5024    2660.7881  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1132722 number of bytes = 362471040

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3691.81 Mbyte (on task=0), Smallest = 2348.1 Mbyte, Average = 2386.74 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9000    1202.9140  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5299    1227.4439  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8831    1268.3270  fof_fof()/fof.c/337
   0 2975 0             Group      1.1320    1269.4590  fof_fof()/fof.c/380
   0 2976 0          SubGroup   1366.8267    2636.2857  subfind()/subfind.c/376
   0 2977 0   sort_index_data     24.5024    2660.7881  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      4.3210    2665.1091  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      4.3210    2669.4301  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      4.3210    2673.7511  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    345.6793    3019.4304  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    345.6793    3365.1097  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    326.6986    3691.8083  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.478784e+00
 eagle_fetch_elements: we are using 1081469324 bytes of memory, FreeBytes= 1351836656
 eagle_fetch_elements: max_bytes= 504, max_elements= 1060264 number of bytes = 534373056
 eagle_ph_key_ort: timing parallel SphP exchange = 1.893997e-03
 eagle_fetch_elements: we are using 1081469324 bytes of memory, FreeBytes= 1351836656
 eagle_fetch_elements: max_bytes= 384, max_elements= 1386499 number of bytes = 532415616
 eagle_ph_key_ort: timing parallel MetP exchange = 4.770756e-04
 eagle_fetch_elements: we are using 1081469324 bytes of memory, FreeBytes= 1351836656
 eagle_fetch_elements: max_bytes= 256, max_elements= 2063872 number of bytes = 528351232
 eagle_ph_key_ort: timing parallel BHP exchange = 4.780293e-04
Sorting particle-data by peano-hilbert key took = 3.66568 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1081469324 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1132722 number of bytes= 362471040
 eagle_ph_restore: timing parallel P exchange = 2.368331e+00
 eagle_send_elements: we are using 1081469324 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1060264 number of bytes= 534373056
 eagle_ph_restore: timing parallel SphP exchange = 1.125097e-03
 eagle_send_elements: we are using 1081469324 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1386499 number of bytes= 532415616
 eagle_ph_restore: timing parallel MetP exchange = 7.131100e-04
 eagle_send_elements: we are using 1081469324 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 2063872 number of bytes= 528351232
 eagle_ph_restore: timing parallel BHP exchange = 6.101131e-04
Restoring original order after ph key sorting took = 2.387 sec

finished writing particle file...

Finished with SUBFIND.  (total time=4682.52 sec)

Finished computing FoF groups.  (presently allocated=1202.91 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=179945
After=199417
NTopleaves= 174490  NTopnodes=199417 (space for 244687)
gravity work-load balance=1.00042   memory-balance=1.00042   SPH work-load balance=0
iter=0 exchange of 0273071891 particles (ret=0)
domain decomposition done. (took 3.88238 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.0723 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 16: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
task 32: endrun called with an error level of 124


task 32: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 32:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 32
task 16: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
task 48: endrun called with an error level of 124


task 48: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 48:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 48
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 64:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 64
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 80:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
task 96: endrun called with an error level of 124


task 96: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 96:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 128: endrun called with an error level of 124


task 128: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 128:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 128
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 144:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 144
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
task 160: endrun called with an error level of 124


task 160: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 160:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 160
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 176: endrun called with an error level of 124


task 176: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 176:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 192: endrun called with an error level of 124


task 192: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 192:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 208: endrun called with an error level of 124


task 208: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 208:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 208
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
task 224: endrun called with an error level of 124


task 224: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 224:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 224
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
Finished FOF, total time doing fof/subfind = 4743.58 s
task 240: endrun called with an error level of 124


task 240: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 240:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 240
MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.59 Mb (on task=112), Smallest =   62647.59 Mb (on task=0), Average =   62686.92 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1884.48 Mb (on task=0), Smallest =    1798.48 Mb (on task=112), Average =    1845.16 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16342.48 Mb (on task=0), Average =   16352.24 Mb
AllocMem:	 Largest =    1884.48 Mb (on task=0), Smallest =    1798.48 Mb (on task=112), Average =    1845.16 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_024_z000p155/snap_024_z000p155.0.hdf5' on task=0 (contains 17208579 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  17056151  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     26895  (tot=     0000303834) masstab=0
Type 3 (bulge):   125533  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.876876

Setting next time for line of sight file to Time_next= 0.869993

Setting next time for snipshot file to Time_next= 0.874207

Setting next time for fof output to Time_next= 0.874207
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.24242 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=194169
After=197817
NTopleaves= 173090  NTopnodes=197817 (space for 244687)
gravity work-load balance=1.00042   memory-balance=1.00043   SPH work-load balance=0
iter=0 exchange of 0273478635 particles (ret=0)
domain decomposition done. (took 10.5928 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.14554 MByte in top-level domain structure

Allocated 503.103 MByte for BH-tree, and 0.660286 Mbyte for top-leaves.  (presently allocted 1706.59 MB)

Begin Ngb-tree construction.
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1752.76 Mbyte (on task=211), Smallest = 1752.67 Mbyte, Average = 1752.75 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 211 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
 211 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
 211 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
 211 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
 211 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
 211 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
 211 2972 0          TopNodes      9.8100    1202.8250  domain_allocate()/domain.c/570
 211 2973 0   DomainNodeIndex      0.6603    1203.4853  force_treeallocate()/forcetree.c/4800
 211 2974 0        Nodes_base    258.4047    1461.8900  force_treeallocate()/forcetree.c/4803
 211 2975 0     Extnodes_base    215.3372    1677.2272  force_treeallocate()/forcetree.c/4811
 211 2976 0          Nextnode     15.0578    1692.2850  force_treeallocate()/forcetree.c/4820
 211 2977 0            Father     14.3032    1706.5882  force_treeallocate()/forcetree.c/4827
 211 2978 0           Ngblist      4.0884    1710.6766  density()/density.c/690
 211 2979 0              Left      8.1767    1718.8533  density()/density.c/692
 211 2980 0             Right      8.1767    1727.0301  density()/density.c/693
 211 2981 0    DataIndexTable      7.0175    1734.0476  density()/density.c/738
 211 2982 0      DataNodeList     18.7134    1752.7610  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.101.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.155.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.59 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=179713
After=199681
NTopleaves= 174721  NTopnodes=199681 (space for 244687)
gravity work-load balance=1.0005   memory-balance=1.0005   SPH work-load balance=0
iter=0 exchange of 0273172493 particles (ret=0)
domain decomposition done. (took 3.90352 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.06021 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1202.92 MB)
Tree construction.

Start linking particles (presently allocated=1756.06 MB)
links on local processor done (took 8.67184 sec).
Marked=0067054656 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1857.67 MB) 
have done 0000974563 cross links (processed 0067054656, took 6.68176 sec)
have done 0000440415 cross links (processed 0053543034, took 6.42145 sec)
have done 0000317423 cross links (processed 0045241418, took 6.06831 sec)
have done 0000220316 cross links (processed 0033300223, took 4.55389 sec)
have done 0000149355 cross links (processed 0024323480, took 4.54361 sec)
have done 0000093573 cross links (processed 0016731323, took 5.23779 sec)
have done 0000056074 cross links (processed 0009677762, took 4.43701 sec)
have done 0000032580 cross links (processed 0004144627, took 3.16653 sec)
have done 0000017876 cross links (processed 0001352978, took 0.628202 sec)
have done 0000009396 cross links (processed 0000535523, took 0.40895 sec)
have done 0000008048 cross links (processed 0001027375, took 0.735576 sec)
have done 0000008019 cross links (processed 0001435394, took 1.02169 sec)
have done 0000006688 cross links (processed 0000727699, took 2.57091 sec)
have done 0000005177 cross links (processed 0000500296, took 0.542341 sec)
have done 0000006152 cross links (processed 0000998769, took 0.734107 sec)
have done 0000006863 cross links (processed 0001397971, took 1.01859 sec)
have done 0000005226 cross links (processed 0000654716, took 2.56765 sec)
have done 0000002281 cross links (processed 0000168594, took 0.532932 sec)
have done 0000000746 cross links (processed 0000025596, took 0.397311 sec)
have done 0000000308 cross links (processed 0000004113, took 0.0452158 sec)
have done 0000000121 cross links (processed 0000001734, took 0.045172 sec)
have done 0000000055 cross links (processed 0000000596, took 0.044728 sec)
have done 0000000026 cross links (processed 0000000211, took 0.0446999 sec)
have done 0000000008 cross links (processed 0000000113, took 0.0457959 sec)
have done 0000000003 cross links (processed 0000000025, took 0.044733 sec)
have done 0000000000 cross links (processed 0000000007, took 0.044584 sec)
Local groups found.

group finding took = 61.386 sec
Start finding nearest dm-particle (presently allocated=1756.06 MB)
still finding nearest... (presently allocated=1845.52 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.112801 sec
compiling local group data and catalogue took = 0.588474 sec

Total number of groups with at least 32 particles: 189599
Largest group has 19880648 particles.
Total number of particles in groups: 0146976291

group properties are now allocated.. (presently allocated=1269.23 MB)
computation of group properties took = 0.0765111 sec
start global sorting of group catalogues number 24
LargestGroup = 15649.433919; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0516222 sec
Group catalogues globally sorted. took = 0.831608 sec
starting saving of group catalogue number 24
data//groups_024_z000p155
Group catalogues number 24 saved. took = 2.86172 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.712802 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.282054 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.722153 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0192607179 particles. (took 20.2328 sec)
ngb iteration 2: need to repeat for 0149241978 particles. (took 9.88929 sec)
ngb iteration 3: need to repeat for 0130628979 particles. (took 7.06019 sec)
ngb iteration 4: need to repeat for 0118582916 particles. (took 5.80634 sec)
ngb iteration 5: need to repeat for 0105741019 particles. (took 5.13243 sec)
ngb iteration 6: need to repeat for 0087987869 particles. (took 4.54568 sec)
ngb iteration 7: need to repeat for 0066248714 particles. (took 3.88803 sec)
ngb iteration 8: need to repeat for 0045308079 particles. (took 3.10961 sec)
ngb iteration 9: need to repeat for 0028766930 particles. (took 2.26041 sec)
ngb iteration 10: need to repeat for 0017370251 particles. (took 1.55423 sec)
ngb iteration 11: need to repeat for 0010178470 particles. (took 0.998374 sec)
ngb iteration 12: need to repeat for 0005871602 particles. (took 0.610565 sec)
ngb iteration 13: need to repeat for 0003371375 particles. (took 0.377349 sec)
ngb iteration 14: need to repeat for 0001839347 particles. (took 0.250051 sec)
ngb iteration 15: need to repeat for 0000871999 particles. (took 0.16623 sec)
ngb iteration 16: need to repeat for 0000454030 particles. (took 0.103575 sec)
ngb iteration 17: need to repeat for 0000248849 particles. (took 0.075273 sec)
ngb iteration 18: need to repeat for 0000139692 particles. (took 0.060761 sec)
ngb iteration 19: need to repeat for 0000077789 particles. (took 0.0524409 sec)
ngb iteration 20: need to repeat for 0000042546 particles. (took 0.0479822 sec)
ngb iteration 21: need to repeat for 0000022442 particles. (took 0.044641 sec)
ngb iteration 22: need to repeat for 0000011383 particles. (took 0.0427349 sec)
ngb iteration 23: need to repeat for 0000005522 particles. (took 0.0416889 sec)
ngb iteration 24: need to repeat for 0000002580 particles. (took 0.041182 sec)
ngb iteration 25: need to repeat for 0000001149 particles. (took 0.0408311 sec)
ngb iteration 26: need to repeat for 0000000440 particles. (took 0.040261 sec)
ngb iteration 27: need to repeat for 0000000159 particles. (took 0.0401859 sec)
ngb iteration 28: need to repeat for 0000000066 particles. (took 0.0401819 sec)
ngb iteration 29: need to repeat for 0000000016 particles. (took 0.040005 sec)
ngb iteration 30: need to repeat for 0000000005 particles. (took 0.0400012 sec)
ngb iteration 31: need to repeat for 0000000002 particles. (took 0.040086 sec)
ngb iteration 32: need to repeat for 0000000001 particles. (took 0.039947 sec)
final operations ... 
density and smoothing length for species 1 took 67.0803 sec
Tree construction.
tree build took 0.710689 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.281302 sec
Tree construction.
tree build took 0.704415 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.283128 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.164063 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 2.05632 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.70491 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.18274 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 2.04938 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.164348 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 2.07382 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.982996 sec
saving densities took 3.16707 sec

Number of FOF halos treated with collective SubFind code = 5
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 189594 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 21318 - 62819871 

subfind_exchange()() took 1.85414 sec

collectively doing halo 1, num=24
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3453.58 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=3513.13 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 3513.14 Mbyte (on task=0), Smallest = 1351.83 Mbyte, Average = 1391.26 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9024    1202.9164  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5282    1227.4446  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8804    1268.3250  fof_fof()/fof.c/337
   0 2975 0             Group      0.9006    1269.2256  fof_fof()/fof.c/380
   0 2976 0          SubGroup   2184.3557    3453.5813  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    3465.8406  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    3494.4470  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    3495.3921  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    3496.3255  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    3497.2589  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    3498.1923  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    3499.1297  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    3500.0670  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    3513.1347  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=128369
After=168729
NTopleaves= 147638  NTopnodes=168729 (space for 244687)
gravity work-load balance=1.0007   memory-balance=1.0007   SPH work-load balance=0
iter=0 exchange of 0019807112 particles (ret=0)
domain decomposition done. (took 1.14187 sec)
Freed 3.47708 MByte in top-level domain structure
------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9024    1202.9164  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5282    1227.4446  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8804    1268.3250  fof_fof()/fof.c/337
   0 2975 0             Group      0.9006    1269.2256  fof_fof()/fof.c/380
   0 2976 0          SubGroup   2184.3557    3453.5813  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.3675    3462.0737  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5632    3462.6369  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    255.7416    3718.3785  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base    213.1180    3931.4965  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9469    3946.4433  force_treeallocate()/forcetree.c/4820
----------------------------------------------------------------------------------------

Task=0: Not enough memory in mymalloc_fullinfo() to allocate 14.3032 MB for variable 'Father' at force_treeallocate()/forcetree.c/line 4827 (FreeBytes=3.55667 MB).
task 0: endrun called with an error level of 812


application called MPI_Abort(MPI_COMM_WORLD, 812) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
task 0: endrun called with an error level of 124


    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.59 Mb (on task=112), Smallest =   62646.42 Mb (on task=0), Average =   62686.62 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1885.64 Mb (on task=0), Smallest =    1798.48 Mb (on task=112), Average =    1845.45 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16342.48 Mb (on task=0), Average =   16352.24 Mb
AllocMem:	 Largest =    1885.64 Mb (on task=0), Smallest =    1798.48 Mb (on task=112), Average =    1845.45 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_025_z000p113/snap_025_z000p113.0.hdf5' on task=0 (contains 17587620 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  17101102  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     24395  (tot=     0000303834) masstab=0
Type 3 (bulge):   462123  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.898798

Setting next time for line of sight file to Time_next= 0.905318

Setting next time for snipshot file to Time_next= 0.906994

Setting next time for fof output to Time_next= 0.906994
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.20206 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=194761
After=197881
NTopleaves= 173146  NTopnodes=197881 (space for 244687)
gravity work-load balance=1.00038   memory-balance=1.00038   SPH work-load balance=0
iter=0 exchange of 0273184470 particles (ret=0)
domain decomposition done. (took 10.6185 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.14261 MByte in top-level domain structure

Allocated 503.114 MByte for BH-tree, and 0.6605 Mbyte for top-leaves.  (presently allocted 1706.6 MB)

Begin Ngb-tree construction.
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1752.78 Mbyte (on task=46), Smallest = 1752.69 Mbyte, Average = 1752.77 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  46 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
  46 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
  46 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
  46 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
  46 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
  46 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
  46 2972 0          TopNodes      9.8131    1202.8282  domain_allocate()/domain.c/570
  46 2973 0   DomainNodeIndex      0.6605    1203.4887  force_treeallocate()/forcetree.c/4800
  46 2974 0        Nodes_base    258.4105    1461.8992  force_treeallocate()/forcetree.c/4803
  46 2975 0     Extnodes_base    215.3421    1677.2413  force_treeallocate()/forcetree.c/4811
  46 2976 0          Nextnode     15.0581    1692.2994  force_treeallocate()/forcetree.c/4820
  46 2977 0            Father     14.3032    1706.6026  force_treeallocate()/forcetree.c/4827
  46 2978 0           Ngblist      4.0882    1710.6908  density()/density.c/690
  46 2979 0              Left      8.1764    1718.8672  density()/density.c/692
  46 2980 0             Right      8.1764    1727.0436  density()/density.c/693
  46 2981 0    DataIndexTable      7.0175    1734.0611  density()/density.c/738
  46 2982 0      DataNodeList     18.7134    1752.7746  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.101.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.155.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.6 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=179041
After=199457
NTopleaves= 174525  NTopnodes=199457 (space for 244687)
gravity work-load balance=1.00057   memory-balance=1.00057   SPH work-load balance=0
iter=0 exchange of 0273421091 particles (ret=0)
domain decomposition done. (took 3.86452 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.07047 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1202.91 MB)
Tree construction.

Start linking particles (presently allocated=1756.02 MB)
links on local processor done (took 8.49586 sec).
Marked=0068166322 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1857.63 MB) 
have done 0000975995 cross links (processed 0068166322, took 6.17205 sec)
have done 0000442572 cross links (processed 0054706752, took 6.06364 sec)
have done 0000320021 cross links (processed 0046452383, took 5.78179 sec)
have done 0000223726 cross links (processed 0035617138, took 5.03111 sec)
have done 0000151544 cross links (processed 0024441608, took 5.25865 sec)
have done 0000100610 cross links (processed 0016697375, took 4.85025 sec)
have done 0000065372 cross links (processed 0012178530, took 4.77781 sec)
have done 0000039632 cross links (processed 0006269360, took 2.93177 sec)
have done 0000021499 cross links (processed 0002614320, took 4.15237 sec)
have done 0000011752 cross links (processed 0000613331, took 0.1569 sec)
have done 0000007659 cross links (processed 0000608783, took 0.138521 sec)
have done 0000007584 cross links (processed 0001289100, took 0.73875 sec)
have done 0000007297 cross links (processed 0001412471, took 1.83544 sec)
have done 0000004925 cross links (processed 0000210496, took 0.108158 sec)
have done 0000002291 cross links (processed 0000179652, took 0.681211 sec)
have done 0000000872 cross links (processed 0000018677, took 0.0508711 sec)
have done 0000000358 cross links (processed 0000005130, took 0.0455701 sec)
have done 0000000134 cross links (processed 0000001864, took 0.0453949 sec)
have done 0000000042 cross links (processed 0000000667, took 0.044853 sec)
have done 0000000014 cross links (processed 0000000256, took 0.0446339 sec)
have done 0000000015 cross links (processed 0000000168, took 0.044821 sec)
have done 0000000006 cross links (processed 0000000100, took 0.044863 sec)
have done 0000000005 cross links (processed 0000000048, took 0.044677 sec)
have done 0000000003 cross links (processed 0000000080, took 0.044678 sec)
have done 0000000001 cross links (processed 0000000018, took 0.044636 sec)
have done 0000000003 cross links (processed 0000000009, took 0.0446069 sec)
have done 0000000001 cross links (processed 0000000010, took 0.044929 sec)
have done 0000000000 cross links (processed 0000000002, took 0.0445769 sec)
Local groups found.

group finding took = 57.8996 sec
Start finding nearest dm-particle (presently allocated=1756.02 MB)
still finding nearest... (presently allocated=1845.48 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.110402 sec
compiling local group data and catalogue took = 0.613597 sec

Total number of groups with at least 32 particles: 187931
Largest group has 20224276 particles.
Total number of particles in groups: 0148608010

group properties are now allocated.. (presently allocated=1269.18 MB)
computation of group properties took = 0.07706 sec
start global sorting of group catalogues number 25
LargestGroup = 15919.927299; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0512381 sec
Group catalogues globally sorted. took = 0.83148 sec
starting saving of group catalogue number 25
data//groups_025_z000p113
Group catalogues number 25 saved. took = 2.54001 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.724041 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.263167 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.716431 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0192970869 particles. (took 20.4406 sec)
ngb iteration 2: need to repeat for 0149478366 particles. (took 9.92412 sec)
ngb iteration 3: need to repeat for 0130955528 particles. (took 7.19301 sec)
ngb iteration 4: need to repeat for 0118915650 particles. (took 5.80849 sec)
ngb iteration 5: need to repeat for 0106052478 particles. (took 5.11412 sec)
ngb iteration 6: need to repeat for 0088196879 particles. (took 4.52811 sec)
ngb iteration 7: need to repeat for 0066346309 particles. (took 3.88045 sec)
ngb iteration 8: need to repeat for 0045320794 particles. (took 3.07439 sec)
ngb iteration 9: need to repeat for 0028750501 particles. (took 2.26468 sec)
ngb iteration 10: need to repeat for 0017343827 particles. (took 1.62381 sec)
ngb iteration 11: need to repeat for 0010157072 particles. (took 1.01465 sec)
ngb iteration 12: need to repeat for 0005862394 particles. (took 0.619799 sec)
ngb iteration 13: need to repeat for 0003370494 particles. (took 0.384746 sec)
ngb iteration 14: need to repeat for 0001843008 particles. (took 0.251989 sec)
ngb iteration 15: need to repeat for 0000876437 particles. (took 0.18075 sec)
ngb iteration 16: need to repeat for 0000459760 particles. (took 0.103921 sec)
ngb iteration 17: need to repeat for 0000253493 particles. (took 0.0755091 sec)
ngb iteration 18: need to repeat for 0000143308 particles. (took 0.0607979 sec)
ngb iteration 19: need to repeat for 0000081115 particles. (took 0.0529661 sec)
ngb iteration 20: need to repeat for 0000044828 particles. (took 0.048136 sec)
ngb iteration 21: need to repeat for 0000024212 particles. (took 0.0448401 sec)
ngb iteration 22: need to repeat for 0000012546 particles. (took 0.043051 sec)
ngb iteration 23: need to repeat for 0000006114 particles. (took 0.0418739 sec)
ngb iteration 24: need to repeat for 0000002854 particles. (took 0.0410049 sec)
ngb iteration 25: need to repeat for 0000001293 particles. (took 0.040457 sec)
ngb iteration 26: need to repeat for 0000000510 particles. (took 0.040179 sec)
ngb iteration 27: need to repeat for 0000000202 particles. (took 0.040077 sec)
ngb iteration 28: need to repeat for 0000000062 particles. (took 0.04006 sec)
ngb iteration 29: need to repeat for 0000000023 particles. (took 0.0402389 sec)
ngb iteration 30: need to repeat for 0000000005 particles. (took 0.039978 sec)
ngb iteration 31: need to repeat for 0000000002 particles. (took 0.040077 sec)
ngb iteration 32: need to repeat for 0000000002 particles. (took 0.039957 sec)
final operations ... 
density and smoothing length for species 1 took 67.4965 sec
Tree construction.
tree build took 0.729546 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.263524 sec
Tree construction.
tree build took 0.723886 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.264959 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.173149 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 2.03972 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.720796 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.183602 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 2.06629 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.174327 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 2.03103 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.98545 sec
saving densities took 2.4404 sec

Number of FOF halos treated with collective SubFind code = 7
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 187924 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 20966 - 57656651 

subfind_exchange()() took 1.56956 sec

collectively doing halo 1, num=25
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3490.62 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=3550.18 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 3550.18 Mbyte (on task=0), Smallest = 1351.48 Mbyte, Average = 1391.94 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.8913    1202.9053  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5337    1227.4390  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8895    1268.3286  fof_fof()/fof.c/337
   0 2975 0             Group      0.8488    1269.1773  fof_fof()/fof.c/380
   0 2976 0          SubGroup   2221.4462    3490.6235  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    3502.8828  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    3531.4892  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    3532.4344  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    3533.3678  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    3534.3012  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    3535.2346  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    3536.1719  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    3537.1092  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    3550.1769  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=127841
After=172825
NTopleaves= 151222  NTopnodes=172825 (space for 244687)
gravity work-load balance=1.0014   memory-balance=1.0014   SPH work-load balance=0
iter=0 exchange of 0020151749 particles (ret=0)
domain decomposition done. (took 1.16969 sec)
Freed 3.28958 MByte in top-level domain structure
------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.8913    1202.9053  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5337    1227.4390  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8895    1268.3286  fof_fof()/fof.c/337
   0 2975 0             Group      0.8488    1269.1773  fof_fof()/fof.c/380
   0 2976 0          SubGroup   2221.4462    3490.6235  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.5706    3499.3191  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5769    3499.8960  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    256.1166    3756.0125  force_treeallocate()/forcetree.c/4803
----------------------------------------------------------------------------------------

Task=0: Not enough memory in mymalloc_fullinfo() to allocate 213.43 MB for variable 'Extnodes_base' at force_treeallocate()/forcetree.c/line 4811 (FreeBytes=193.987 MB).
task 0: endrun called with an error level of 812


application called MPI_Abort(MPI_COMM_WORLD, 812) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
task 0: endrun called with an error level of 124


  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.59 Mb (on task=112), Smallest =   62645.98 Mb (on task=0), Average =   62686.70 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1886.08 Mb (on task=0), Smallest =    1798.48 Mb (on task=112), Average =    1845.37 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16342.48 Mb (on task=0), Average =   16352.25 Mb
AllocMem:	 Largest =    1886.08 Mb (on task=0), Smallest =    1798.48 Mb (on task=112), Average =    1845.37 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_026_z000p101/snap_026_z000p101.0.hdf5' on task=0 (contains 17008515 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  16802104  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     28121  (tot=     0000303834) masstab=0
Type 3 (bulge):   178290  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.921268

Setting next time for line of sight file to Time_next= 0.914371

Setting next time for snipshot file to Time_next= 0.915269

Setting next time for fof output to Time_next= 0.915269
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.19655 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=194089
After=197289
NTopleaves= 172628  NTopnodes=197289 (space for 244687)
gravity work-load balance=1.00045   memory-balance=1.00045   SPH work-load balance=0
iter=0 exchange of 0273149971 particles (ret=0)
domain decomposition done. (took 10.5862 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.16971 MByte in top-level domain structure

Allocated 503.012 MByte for BH-tree, and 0.658524 Mbyte for top-leaves.  (presently allocted 1706.47 MB)

Begin Ngb-tree construction.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1752.64 Mbyte (on task=189), Smallest = 1752.51 Mbyte, Average = 1752.64 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 189 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
 189 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
 189 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
 189 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
 189 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
 189 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
 189 2972 0          TopNodes      9.7838    1202.7988  domain_allocate()/domain.c/570
 189 2973 0   DomainNodeIndex      0.6585    1203.4573  force_treeallocate()/forcetree.c/4800
 189 2974 0        Nodes_base    258.3563    1461.8137  force_treeallocate()/forcetree.c/4803
 189 2975 0     Extnodes_base    215.2969    1677.1106  force_treeallocate()/forcetree.c/4811
 189 2976 0          Nextnode     15.0558    1692.1664  force_treeallocate()/forcetree.c/4820
 189 2977 0            Father     14.3032    1706.4696  force_treeallocate()/forcetree.c/4827
 189 2978 0           Ngblist      4.0885    1710.5581  density()/density.c/690
 189 2979 0              Left      8.1770    1718.7351  density()/density.c/692
 189 2980 0             Right      8.1770    1726.9120  density()/density.c/693
 189 2981 0    DataIndexTable      7.0175    1733.9296  density()/density.c/738
 189 2982 0      DataNodeList     18.7134    1752.6430  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.049.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.101.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.47 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=178865
After=199377
NTopleaves= 174455  NTopnodes=199377 (space for 244687)
gravity work-load balance=1.00048   memory-balance=1.00048   SPH work-load balance=0
iter=0 exchange of 0273184329 particles (ret=0)
domain decomposition done. (took 4.30019 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.07413 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1202.9 MB)
Tree construction.

Start linking particles (presently allocated=1755.93 MB)
links on local processor done (took 9.09634 sec).
Marked=0068426726 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1857.52 MB) 
have done 0000977159 cross links (processed 0068426726, took 6.88346 sec)
have done 0000442584 cross links (processed 0055067929, took 6.75212 sec)
have done 0000320406 cross links (processed 0046420742, took 5.43893 sec)
have done 0000224684 cross links (processed 0033355986, took 4.93972 sec)
have done 0000152361 cross links (processed 0023781569, took 3.4026 sec)
have done 0000097236 cross links (processed 0017321910, took 4.56772 sec)
have done 0000062778 cross links (processed 0009280041, took 3.74838 sec)
have done 0000035382 cross links (processed 0002514521, took 2.75843 sec)
have done 0000017740 cross links (processed 0000866705, took 0.250481 sec)
have done 0000010996 cross links (processed 0000853005, took 0.219245 sec)
have done 0000008329 cross links (processed 0001416538, took 1.55273 sec)
have done 0000006006 cross links (processed 0001021039, took 1.47669 sec)
have done 0000004270 cross links (processed 0000153383, took 0.138594 sec)
have done 0000002009 cross links (processed 0000171697, took 0.750983 sec)
have done 0000000723 cross links (processed 0000015182, took 0.0623939 sec)
have done 0000000336 cross links (processed 0000006735, took 0.048789 sec)
have done 0000000197 cross links (processed 0000006862, took 0.048701 sec)
have done 0000000141 cross links (processed 0000005082, took 0.0484679 sec)
have done 0000000112 cross links (processed 0000004744, took 0.0487359 sec)
have done 0000000057 cross links (processed 0000002147, took 0.048497 sec)
have done 0000000017 cross links (processed 0000000231, took 0.0451519 sec)
have done 0000000005 cross links (processed 0000000088, took 0.045151 sec)
have done 0000000003 cross links (processed 0000000030, took 0.0447619 sec)
have done 0000000041 cross links (processed 0000002504, took 0.047821 sec)
have done 0000000038 cross links (processed 0000001898, took 0.04843 sec)
have done 0000000008 cross links (processed 0000000143, took 0.044873 sec)
have done 0000000004 cross links (processed 0000000057, took 0.044904 sec)
have done 0000000000 cross links (processed 0000000011, took 0.0449822 sec)
Local groups found.

group finding took = 52.7835 sec
Start finding nearest dm-particle (presently allocated=1755.93 MB)
still finding nearest... (presently allocated=1845.37 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.110715 sec
compiling local group data and catalogue took = 0.589056 sec

Total number of groups with at least 32 particles: 187405
Largest group has 20439033 particles.
Total number of particles in groups: 0149109534

group properties are now allocated.. (presently allocated=1268.99 MB)
computation of group properties took = 0.0831289 sec
start global sorting of group catalogues number 26
LargestGroup = 16088.977396; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0576489 sec
Group catalogues globally sorted. took = 0.860398 sec
starting saving of group catalogue number 26
data//groups_026_z000p101
Group catalogues number 26 saved. took = 2.60036 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.721898 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.269721 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.712313 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0193182977 particles. (took 20.4725 sec)
ngb iteration 2: need to repeat for 0149601659 particles. (took 10.0178 sec)
ngb iteration 3: need to repeat for 0131076065 particles. (took 7.31019 sec)
ngb iteration 4: need to repeat for 0119008630 particles. (took 5.94599 sec)
ngb iteration 5: need to repeat for 0106114525 particles. (took 5.20566 sec)
ngb iteration 6: need to repeat for 0088235079 particles. (took 4.51705 sec)
ngb iteration 7: need to repeat for 0066350987 particles. (took 3.85607 sec)
ngb iteration 8: need to repeat for 0045312606 particles. (took 3.07521 sec)
ngb iteration 9: need to repeat for 0028739587 particles. (took 2.26306 sec)
ngb iteration 10: need to repeat for 0017338741 particles. (took 1.56583 sec)
ngb iteration 11: need to repeat for 0010155509 particles. (took 1.01249 sec)
ngb iteration 12: need to repeat for 0005863588 particles. (took 0.619295 sec)
ngb iteration 13: need to repeat for 0003376522 particles. (took 0.39989 sec)
ngb iteration 14: need to repeat for 0001850066 particles. (took 0.252661 sec)
ngb iteration 15: need to repeat for 0000882132 particles. (took 0.179548 sec)
ngb iteration 16: need to repeat for 0000464934 particles. (took 0.106149 sec)
ngb iteration 17: need to repeat for 0000257924 particles. (took 0.076627 sec)
ngb iteration 18: need to repeat for 0000147144 particles. (took 0.061888 sec)
ngb iteration 19: need to repeat for 0000083273 particles. (took 0.0538771 sec)
ngb iteration 20: need to repeat for 0000045973 particles. (took 0.04878 sec)
ngb iteration 21: need to repeat for 0000024744 particles. (took 0.045567 sec)
ngb iteration 22: need to repeat for 0000012759 particles. (took 0.0430529 sec)
ngb iteration 23: need to repeat for 0000006286 particles. (took 0.0420592 sec)
ngb iteration 24: need to repeat for 0000003002 particles. (took 0.0413408 sec)
ngb iteration 25: need to repeat for 0000001350 particles. (took 0.0411899 sec)
ngb iteration 26: need to repeat for 0000000591 particles. (took 0.043258 sec)
ngb iteration 27: need to repeat for 0000000245 particles. (took 0.0435431 sec)
ngb iteration 28: need to repeat for 0000000086 particles. (took 0.041918 sec)
ngb iteration 29: need to repeat for 0000000031 particles. (took 0.0402751 sec)
ngb iteration 30: need to repeat for 0000000013 particles. (took 0.040128 sec)
ngb iteration 31: need to repeat for 0000000002 particles. (took 0.0401399 sec)
final operations ... 
density and smoothing length for species 1 took 67.8667 sec
Tree construction.
tree build took 0.721377 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.269876 sec
Tree construction.
tree build took 0.714077 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.269818 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.169157 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 2.04448 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.715499 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.167093 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 2.06444 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.187728 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 2.09982 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 1.0178 sec
saving densities took 2.82401 sec

Number of FOF halos treated with collective SubFind code = 7
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 187398 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 18117 - 56061062 

subfind_exchange()() took 1.54464 sec

collectively doing halo 1, num=26
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3513.69 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=3573.25 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 3573.25 Mbyte (on task=0), Smallest = 1351.5 Mbyte, Average = 1392.15 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.8873    1202.9013  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.4967    1227.3981  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8279    1268.2260  fof_fof()/fof.c/337
   0 2975 0             Group      0.7606    1268.9865  fof_fof()/fof.c/380
   0 2976 0          SubGroup   2244.7055    3513.6920  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    3525.9513  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    3554.5577  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    3555.5029  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    3556.4363  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    3557.3697  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    3558.3031  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    3559.2404  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    3560.1777  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    3573.2454  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=127633
After=171489
NTopleaves= 150053  NTopnodes=171489 (space for 244687)
gravity work-load balance=1.00051   memory-balance=1.00051   SPH work-load balance=0
iter=0 exchange of 0020346771 particles (ret=0)
domain decomposition done. (took 1.16329 sec)
Freed 3.35074 MByte in top-level domain structure
------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.8873    1202.9013  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.4967    1227.3981  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8279    1268.2260  fof_fof()/fof.c/337
   0 2975 0             Group      0.7606    1268.9865  fof_fof()/fof.c/380
   0 2976 0          SubGroup   2244.7055    3513.6920  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.5043    3522.3214  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5724    3522.8938  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    255.9943    3778.8880  force_treeallocate()/forcetree.c/4803
----------------------------------------------------------------------------------------

Task=0: Not enough memory in mymalloc_fullinfo() to allocate 213.329 MB for variable 'Extnodes_base' at force_treeallocate()/forcetree.c/line 4811 (FreeBytes=171.112 MB).
task 0: endrun called with an error level of 812


application called MPI_Abort(MPI_COMM_WORLD, 812) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.59 Mb (on task=112), Smallest =   62645.83 Mb (on task=0), Average =   62686.83 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1886.23 Mb (on task=0), Smallest =    1798.48 Mb (on task=112), Average =    1845.25 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16342.48 Mb (on task=0), Average =   16352.25 Mb
AllocMem:	 Largest =    1886.23 Mb (on task=0), Smallest =    1798.48 Mb (on task=112), Average =    1845.25 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_027_z000p073/snap_027_z000p073.0.hdf5' on task=0 (contains 17467443 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  17203793  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     26080  (tot=     0000303834) masstab=0
Type 3 (bulge):   237570  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.9443

Setting next time for line of sight file to Time_next= 0.93275

Setting next time for snipshot file to Time_next= 0.940305

Setting next time for fof output to Time_next= 0.940305
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.23877 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=196025
After=198777
NTopleaves= 173930  NTopnodes=198777 (space for 244687)
gravity work-load balance=1.00038   memory-balance=1.00038   SPH work-load balance=0
iter=0 exchange of 0272995535 particles (ret=0)
domain decomposition done. (took 10.7013 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.10159 MByte in top-level domain structure

Allocated 503.268 MByte for BH-tree, and 0.66349 Mbyte for top-leaves.  (presently allocted 1706.8 MB)

Begin Ngb-tree construction.
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1752.98 Mbyte (on task=49), Smallest = 1752.94 Mbyte, Average = 1752.97 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  49 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
  49 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
  49 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
  49 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
  49 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
  49 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
  49 2972 0          TopNodes      9.8576    1202.8726  domain_allocate()/domain.c/570
  49 2973 0   DomainNodeIndex      0.6635    1203.5361  force_treeallocate()/forcetree.c/4800
  49 2974 0        Nodes_base    258.4926    1462.0287  force_treeallocate()/forcetree.c/4803
  49 2975 0     Extnodes_base    215.4105    1677.4391  force_treeallocate()/forcetree.c/4811
  49 2976 0          Nextnode     15.0615    1692.5006  force_treeallocate()/forcetree.c/4820
  49 2977 0            Father     14.3032    1706.8038  force_treeallocate()/forcetree.c/4827
  49 2978 0           Ngblist      4.0882    1710.8920  density()/density.c/690
  49 2979 0              Left      8.1764    1719.0684  density()/density.c/692
  49 2980 0             Right      8.1764    1727.2447  density()/density.c/693
  49 2981 0    DataIndexTable      7.0175    1734.2623  density()/density.c/738
  49 2982 0      DataNodeList     18.7134    1752.9757  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.049.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.101.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.8 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=179969
After=200273
NTopleaves= 175239  NTopnodes=200273 (space for 244687)
gravity work-load balance=1.00052   memory-balance=1.00052   SPH work-load balance=0
iter=0 exchange of 0273017789 particles (ret=0)
domain decomposition done. (took 3.85705 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.03311 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1202.95 MB)
Tree construction.

Start linking particles (presently allocated=1756.19 MB)
links on local processor done (took 9.0163 sec).
Marked=0069649745 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1857.8 MB) 
have done 0000972471 cross links (processed 0069649745, took 7.2949 sec)
have done 0000444218 cross links (processed 0056090989, took 6.38957 sec)
have done 0000326531 cross links (processed 0047793032, took 4.42012 sec)
have done 0000232069 cross links (processed 0036321600, took 5.62286 sec)
have done 0000165432 cross links (processed 0026369406, took 6.2179 sec)
have done 0000115385 cross links (processed 0018722544, took 5.70691 sec)
have done 0000080074 cross links (processed 0013777664, took 5.86703 sec)
have done 0000053135 cross links (processed 0008603018, took 4.22652 sec)
have done 0000034352 cross links (processed 0004300372, took 3.54903 sec)
have done 0000022128 cross links (processed 0002608634, took 1.26936 sec)
have done 0000017531 cross links (processed 0002839270, took 2.60999 sec)
have done 0000014846 cross links (processed 0002109019, took 2.95741 sec)
have done 0000010178 cross links (processed 0000672627, took 1.62539 sec)
have done 0000005341 cross links (processed 0000292972, took 0.689567 sec)
have done 0000002477 cross links (processed 0000124175, took 0.559305 sec)
have done 0000001118 cross links (processed 0000015108, took 0.046613 sec)
have done 0000000657 cross links (processed 0000016340, took 0.082747 sec)
have done 0000000390 cross links (processed 0000012318, took 0.0822721 sec)
have done 0000000161 cross links (processed 0000002834, took 0.0456769 sec)
have done 0000000082 cross links (processed 0000001766, took 0.0455389 sec)
have done 0000000042 cross links (processed 0000000960, took 0.0456772 sec)
have done 0000000025 cross links (processed 0000000229, took 0.0446529 sec)
have done 0000000015 cross links (processed 0000000130, took 0.044606 sec)
have done 0000000011 cross links (processed 0000000099, took 0.0445859 sec)
have done 0000000005 cross links (processed 0000000085, took 0.0445821 sec)
have done 0000000001 cross links (processed 0000000026, took 0.0452328 sec)
have done 0000000000 cross links (processed 0000000004, took 0.044754 sec)
Local groups found.

group finding took = 68.7749 sec
Start finding nearest dm-particle (presently allocated=1756.19 MB)
still finding nearest... (presently allocated=1845.65 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.109958 sec
compiling local group data and catalogue took = 0.579924 sec

Total number of groups with at least 32 particles: 185415
Largest group has 20934414 particles.
Total number of particles in groups: 0150271463

group properties are now allocated.. (presently allocated=1269.33 MB)
computation of group properties took = 0.0811379 sec
start global sorting of group catalogues number 27
LargestGroup = 16478.926065; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0513759 sec
Group catalogues globally sorted. took = 0.854631 sec
starting saving of group catalogue number 27
data//groups_027_z000p073
Group catalogues number 27 saved. took = 2.38096 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.729741 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.268836 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.71721 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0193478383 particles. (took 19.7592 sec)
ngb iteration 2: need to repeat for 0149802674 particles. (took 10.1224 sec)
ngb iteration 3: need to repeat for 0131287624 particles. (took 7.31722 sec)
ngb iteration 4: need to repeat for 0119216681 particles. (took 6.00517 sec)
ngb iteration 5: need to repeat for 0106275005 particles. (took 5.26214 sec)
ngb iteration 6: need to repeat for 0088319125 particles. (took 4.57652 sec)
ngb iteration 7: need to repeat for 0066364554 particles. (took 3.91551 sec)
ngb iteration 8: need to repeat for 0045300768 particles. (took 3.11494 sec)
ngb iteration 9: need to repeat for 0028712063 particles. (took 2.27404 sec)
ngb iteration 10: need to repeat for 0017318539 particles. (took 1.5733 sec)
ngb iteration 11: need to repeat for 0010141942 particles. (took 1.05484 sec)
ngb iteration 12: need to repeat for 0005854881 particles. (took 0.620456 sec)
ngb iteration 13: need to repeat for 0003370664 particles. (took 0.391665 sec)
ngb iteration 14: need to repeat for 0001840809 particles. (took 0.262476 sec)
ngb iteration 15: need to repeat for 0000875429 particles. (took 0.168532 sec)
ngb iteration 16: need to repeat for 0000461089 particles. (took 0.103022 sec)
ngb iteration 17: need to repeat for 0000256343 particles. (took 0.0750952 sec)
ngb iteration 18: need to repeat for 0000145828 particles. (took 0.0615931 sec)
ngb iteration 19: need to repeat for 0000082610 particles. (took 0.053539 sec)
ngb iteration 20: need to repeat for 0000045998 particles. (took 0.0486619 sec)
ngb iteration 21: need to repeat for 0000024967 particles. (took 0.0454981 sec)
ngb iteration 22: need to repeat for 0000012889 particles. (took 0.043575 sec)
ngb iteration 23: need to repeat for 0000006447 particles. (took 0.04234 sec)
ngb iteration 24: need to repeat for 0000003073 particles. (took 0.0414741 sec)
ngb iteration 25: need to repeat for 0000001471 particles. (took 0.0408871 sec)
ngb iteration 26: need to repeat for 0000000666 particles. (took 0.0404971 sec)
ngb iteration 27: need to repeat for 0000000281 particles. (took 0.0405219 sec)
ngb iteration 28: need to repeat for 0000000110 particles. (took 0.0401349 sec)
ngb iteration 29: need to repeat for 0000000045 particles. (took 0.040411 sec)
ngb iteration 30: need to repeat for 0000000015 particles. (took 0.0400491 sec)
ngb iteration 31: need to repeat for 0000000005 particles. (took 0.0402329 sec)
ngb iteration 32: need to repeat for 0000000004 particles. (took 0.0401471 sec)
ngb iteration 33: need to repeat for 0000000002 particles. (took 0.040159 sec)
final operations ... 
density and smoothing length for species 1 took 67.6604 sec
Tree construction.
tree build took 0.733317 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.269919 sec
Tree construction.
tree build took 0.716745 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.268892 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.175726 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 2.04545 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.719747 sec
density() of species 1 took 1.19209e-06 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.170847 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 2.04349 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.172107 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 2.0871 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.981754 sec
saving densities took 3.09449 sec

Number of FOF halos treated with collective SubFind code = 7
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 185408 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 18096 - 60632097 

subfind_exchange()() took 1.58439 sec

collectively doing halo 1, num=27
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3567.81 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=3627.37 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 3627.37 Mbyte (on task=0), Smallest = 1351.47 Mbyte, Average = 1392.67 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9318    1202.9458  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5275    1227.4733  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8792    1268.3526  fof_fof()/fof.c/337
   0 2975 0             Group      0.9733    1269.3258  fof_fof()/fof.c/380
   0 2976 0          SubGroup   2298.4866    3567.8124  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    3580.0717  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    3608.6781  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    3609.6232  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    3610.5566  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    3611.4900  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    3612.4235  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    3613.3608  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    3614.2981  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    3627.3658  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=126057
After=169505
NTopleaves= 148317  NTopnodes=169505 (space for 244687)
gravity work-load balance=1.00059   memory-balance=1.00059   SPH work-load balance=0
iter=0 exchange of 0020844288 particles (ret=0)
domain decomposition done. (took 1.18215 sec)
Freed 3.44156 MByte in top-level domain structure
------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9318    1202.9458  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5275    1227.4733  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8792    1268.3526  fof_fof()/fof.c/337
   0 2975 0             Group      0.9733    1269.3258  fof_fof()/fof.c/380
   0 2976 0          SubGroup   2298.4866    3567.8124  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.4059    3576.3433  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5658    3576.9091  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    255.8126    3832.7217  force_treeallocate()/forcetree.c/4803
----------------------------------------------------------------------------------------

Task=0: Not enough memory in mymalloc_fullinfo() to allocate 213.177 MB for variable 'Extnodes_base' at force_treeallocate()/forcetree.c/line 4811 (FreeBytes=117.278 MB).
task 0: endrun called with an error level of 812


application called MPI_Abort(MPI_COMM_WORLD, 812) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.36 Mb (on task=112), Smallest =   62646.93 Mb (on task=0), Average =   62686.71 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1885.13 Mb (on task=0), Smallest =    1798.71 Mb (on task=112), Average =    1845.37 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16342.48 Mb (on task=0), Average =   16352.25 Mb
AllocMem:	 Largest =    1885.13 Mb (on task=0), Smallest =    1798.71 Mb (on task=112), Average =    1845.37 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_028_z000p036/snap_028_z000p036.0.hdf5' on task=0 (contains 17308776 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  16993853  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     12506  (tot=     0000303834) masstab=0
Type 3 (bulge):   302417  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


Setting next time for grid output file to Time_next= 0.967907

Setting next time for line of sight file to Time_next= 0.970624

Setting next time for snipshot file to Time_next= 0.974187

Setting next time for fof output to Time_next= 0.974187
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.20762 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=195625
After=199169
NTopleaves= 174273  NTopnodes=199169 (space for 244687)
gravity work-load balance=1.00038   memory-balance=1.00038   SPH work-load balance=0
iter=0 exchange of 0273347817 particles (ret=0)
domain decomposition done. (took 10.5744 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.08365 MByte in top-level domain structure

Allocated 503.335 MByte for BH-tree, and 0.664799 Mbyte for top-leaves.  (presently allocted 1706.89 MB)

Begin Ngb-tree construction.
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1753.07 Mbyte (on task=9), Smallest = 1753.03 Mbyte, Average = 1753.06 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   9 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   9 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   9 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   9 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   9 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   9 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   9 2972 0          TopNodes      9.8770    1202.8921  domain_allocate()/domain.c/570
   9 2973 0   DomainNodeIndex      0.6648    1203.5569  force_treeallocate()/forcetree.c/4800
   9 2974 0        Nodes_base    258.5284    1462.0853  force_treeallocate()/forcetree.c/4803
   9 2975 0     Extnodes_base    215.4404    1677.5257  force_treeallocate()/forcetree.c/4811
   9 2976 0          Nextnode     15.0630    1692.5886  force_treeallocate()/forcetree.c/4820
   9 2977 0            Father     14.3032    1706.8919  force_treeallocate()/forcetree.c/4827
   9 2978 0           Ngblist      4.0882    1710.9801  density()/density.c/690
   9 2979 0              Left      8.1764    1719.1565  density()/density.c/692
   9 2980 0             Right      8.1764    1727.3329  density()/density.c/693
   9 2981 0    DataIndexTable      7.0175    1734.3504  density()/density.c/738
   9 2982 0      DataNodeList     18.7134    1753.0638  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.000.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.049.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.89 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=180361
After=200713
NTopleaves= 175624  NTopnodes=200713 (space for 244687)
gravity work-load balance=1.00063   memory-balance=1.00063   SPH work-load balance=0
iter=0 exchange of 0273166637 particles (ret=0)
domain decomposition done. (took 3.8498 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.01297 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1202.97 MB)
Tree construction.

Start linking particles (presently allocated=1756.3 MB)
links on local processor done (took 9.96611 sec).
Marked=0070806827 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1857.91 MB) 
have done 0000971413 cross links (processed 0070806827, took 7.99725 sec)
have done 0000446128 cross links (processed 0057385096, took 7.77041 sec)
have done 0000325349 cross links (processed 0048366805, took 7.10095 sec)
have done 0000229853 cross links (processed 0036445406, took 6.81571 sec)
have done 0000156758 cross links (processed 0027135679, took 6.06032 sec)
have done 0000104562 cross links (processed 0018911117, took 6.64031 sec)
have done 0000074146 cross links (processed 0012848163, took 6.46804 sec)
have done 0000053789 cross links (processed 0008431690, took 4.60946 sec)
have done 0000038871 cross links (processed 0004423402, took 5.25748 sec)
have done 0000026219 cross links (processed 0002086366, took 3.46851 sec)
have done 0000016352 cross links (processed 0001697610, took 0.618824 sec)
have done 0000013065 cross links (processed 0003038989, took 0.846957 sec)
have done 0000011332 cross links (processed 0002534710, took 4.53554 sec)
have done 0000007304 cross links (processed 0000596836, took 0.679255 sec)
have done 0000004316 cross links (processed 0000360234, took 0.452815 sec)
have done 0000002199 cross links (processed 0000132580, took 0.356901 sec)
have done 0000001156 cross links (processed 0000078562, took 0.424782 sec)
have done 0000000481 cross links (processed 0000006415, took 0.0458112 sec)
have done 0000000203 cross links (processed 0000002578, took 0.045074 sec)
have done 0000000079 cross links (processed 0000001181, took 0.0451429 sec)
have done 0000000023 cross links (processed 0000000401, took 0.0449021 sec)
have done 0000000007 cross links (processed 0000000083, took 0.0445781 sec)
have done 0000000003 cross links (processed 0000000026, took 0.044435 sec)
have done 0000000002 cross links (processed 0000000012, took 0.0444691 sec)
have done 0000000001 cross links (processed 0000000005, took 0.0445871 sec)
have done 0000000000 cross links (processed 0000000002, took 0.044745 sec)
Local groups found.

group finding took = 80.6044 sec
Start finding nearest dm-particle (presently allocated=1756.3 MB)
still finding nearest... (presently allocated=1845.76 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.109866 sec
compiling local group data and catalogue took = 0.577423 sec

Total number of groups with at least 32 particles: 184505
Largest group has 22214736 particles.
Total number of particles in groups: 0151703359

group properties are now allocated.. (presently allocated=1269.31 MB)
computation of group properties took = 0.0804658 sec
start global sorting of group catalogues number 28
LargestGroup = 17486.756118; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0516119 sec
Group catalogues globally sorted. took = 0.851121 sec
starting saving of group catalogue number 28
data//groups_028_z000p036
Group catalogues number 28 saved. took = 2.55928 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.736597 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.270466 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.717138 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0193448949 particles. (took 20.1762 sec)
ngb iteration 2: need to repeat for 0149659989 particles. (took 9.90839 sec)
ngb iteration 3: need to repeat for 0131241542 particles. (took 7.13098 sec)
ngb iteration 4: need to repeat for 0119174482 particles. (took 5.79022 sec)
ngb iteration 5: need to repeat for 0106197576 particles. (took 5.12396 sec)
ngb iteration 6: need to repeat for 0088203238 particles. (took 4.54279 sec)
ngb iteration 7: need to repeat for 0066230539 particles. (took 3.90009 sec)
ngb iteration 8: need to repeat for 0045159114 particles. (took 3.10687 sec)
ngb iteration 9: need to repeat for 0028598230 particles. (took 2.2937 sec)
ngb iteration 10: need to repeat for 0017241480 particles. (took 1.58019 sec)
ngb iteration 11: need to repeat for 0010093716 particles. (took 1.01529 sec)
ngb iteration 12: need to repeat for 0005829271 particles. (took 0.619388 sec)
ngb iteration 13: need to repeat for 0003355776 particles. (took 0.384391 sec)
ngb iteration 14: need to repeat for 0001834301 particles. (took 0.249698 sec)
ngb iteration 15: need to repeat for 0000872944 particles. (took 0.165607 sec)
ngb iteration 16: need to repeat for 0000462485 particles. (took 0.103487 sec)
ngb iteration 17: need to repeat for 0000257649 particles. (took 0.0805469 sec)
ngb iteration 18: need to repeat for 0000147154 particles. (took 0.0830209 sec)
ngb iteration 19: need to repeat for 0000083930 particles. (took 0.0533412 sec)
ngb iteration 20: need to repeat for 0000046806 particles. (took 0.0486848 sec)
ngb iteration 21: need to repeat for 0000025106 particles. (took 0.0470929 sec)
ngb iteration 22: need to repeat for 0000012999 particles. (took 0.0430541 sec)
ngb iteration 23: need to repeat for 0000006456 particles. (took 0.0420401 sec)
ngb iteration 24: need to repeat for 0000003029 particles. (took 0.0419819 sec)
ngb iteration 25: need to repeat for 0000001374 particles. (took 0.0415828 sec)
ngb iteration 26: need to repeat for 0000000573 particles. (took 0.040473 sec)
ngb iteration 27: need to repeat for 0000000224 particles. (took 0.039907 sec)
ngb iteration 28: need to repeat for 0000000079 particles. (took 0.0399849 sec)
ngb iteration 29: need to repeat for 0000000025 particles. (took 0.040288 sec)
ngb iteration 30: need to repeat for 0000000007 particles. (took 0.0400538 sec)
ngb iteration 31: need to repeat for 0000000001 particles. (took 0.039819 sec)
final operations ... 
density and smoothing length for species 1 took 67.1737 sec
Tree construction.
tree build took 0.723428 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.270679 sec
Tree construction.
tree build took 0.7185 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.270676 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.171684 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 2.09717 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.785168 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.176352 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 2.0442 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.171539 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 2.04583 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.970661 sec
saving densities took 2.8446 sec

Number of FOF halos treated with collective SubFind code = 7
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 184498 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 19392 - 60700190 

subfind_exchange()() took 1.58528 sec

collectively doing halo 1, num=28
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3706.73 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=3766.28 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 3766.28 Mbyte (on task=0), Smallest = 1351.17 Mbyte, Average = 1393.3 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9536    1202.9676  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5325    1227.5001  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8875    1268.3876  fof_fof()/fof.c/337
   0 2975 0             Group      0.9245    1269.3121  fof_fof()/fof.c/380
   0 2976 0          SubGroup   2437.4162    3706.7283  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    3718.9876  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    3747.5940  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    3748.5391  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    3749.4725  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    3750.4060  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    3751.3394  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    3752.2767  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    3753.2140  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    3766.2817  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=127713
After=171265
NTopleaves= 149857  NTopnodes=171265 (space for 244687)
gravity work-load balance=1.00063   memory-balance=1.00063   SPH work-load balance=0
iter=0 exchange of 0022126184 particles (ret=0)
domain decomposition done. (took 1.22109 sec)
Freed 3.36099 MByte in top-level domain structure
------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9536    1202.9676  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5325    1227.5001  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8875    1268.3876  fof_fof()/fof.c/337
   0 2975 0             Group      0.9245    1269.3121  fof_fof()/fof.c/380
   0 2976 0          SubGroup   2437.4162    3706.7283  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.4932    3715.3465  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5717    3715.9182  force_treeallocate()/forcetree.c/4800
----------------------------------------------------------------------------------------

Task=0: Not enough memory in mymalloc_fullinfo() to allocate 255.974 MB for variable 'Nodes_base' at force_treeallocate()/forcetree.c/line 4803 (FreeBytes=234.082 MB).
task 0: endrun called with an error level of 812


application called MPI_Abort(MPI_COMM_WORLD, 812) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62733.83 Mb (on task=112), Smallest =   62646.35 Mb (on task=0), Average =   62686.72 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=64), Smallest =   64531.96 Mb (on task=144), Average =   64532.08 Mb
Committed_AS:	 Largest =    1885.71 Mb (on task=0), Smallest =    1798.23 Mb (on task=112), Average =    1845.36 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=160), Smallest =   16342.48 Mb (on task=0), Average =   16352.26 Mb
AllocMem:	 Largest =    1885.71 Mb (on task=0), Smallest =    1798.23 Mb (on task=112), Average =    1845.36 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin088

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Code was compiled with settings:

        PERIODIC
        UNEQUALSOFTENINGS
        PMGRID=1024
        ASMTH=1.25
        RCUT=4.5
        PLACEHIGHRESREGION=1+2+16
        ENLARGEREGION=1.2
        MULTIPLEDOMAINS=64
        PEANOHILBERT
        WALLCLOCK
        MYSORT
        DOUBLEPRECISION
        SUBFIND
        DENSITY_SPLIT_BY_TYPE=1+2+16+32
        NO_ISEND_IRECV_IN_DOMAIN
        FIX_PATHSCALE_MPI_STATUS_IGNORE_BUG
        NOSTOP_WHEN_BELOW_MINTIMESTEP
        OVERRIDE_STOP_FOR_SUBOPTIMUM_DOMAINS
        LONGIDS
        GENERATE_GAS_IN_ICS
        HAVE_HDF5
        EAGLE
        EAGLE_COOLING
        EAGLE_SFR
        EAGLE_STELLAR_FEEDBACK
        EAGLE_STELLAR_FEEDBACK_METALS
        EAGLE_TIMESTEP
        EAGLE_TIMESTEP_LIMITER
        EAGLE_BH_TIMESTEP
        EAGLE_SFR_METALLICITY_DEPENDENT_SF_THRESHOLD
        EAGLE_METALSMOOTHING
        EAGLE_SNIA_IRON
        EAGLE_TRACK_SNIA_MASS
        EAGLE_TRACK_SNII_MASS
        EAGLE_TRACK_AGB_MASS
        EAGLE_SAMPLE_STELLAREVOLUTION
        EAGLE_BH
        BLACK_HOLES
        DETACH_BLACK_HOLES
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        EAGLE_BH_ACCRETION
        ENFORCE_EDDINGTON_LIMIT
        BONDI
        SWALLOWGAS
        EVALPOTENTIAL
        REPOSITION_ON_POTMIN
        BH_USE_GASVEL_IN_BONDI
        EAGLE_BH_THERMALFEEDBACK
        EAGLE_BH_OWLS_MERGERS
        EAGLE_BH_MAX_MERGING_DISTANCE
        EAGLE_BH_MAX_REPOSITION_DISTANCE
        BH_ANG_MOM_ACCRETION
        RGB_EAGLE_FEEDBACK
        EAGLE_Z_DEP_FEEDBACK
        EAGLE_DETACH_BH_DENSITY
        EAGLE_PE_AGN_FIX_MS
        FOF
        FOF_PRIMARY_LINK_TYPES=2
        FOF_SECONDARY_LINK_TYPES=1+16+32
        EAGLE_ASSIGN_HOSTHALO_MASS
        EAGLE_IO
        EAGLE_OWLS_SNAPSHOT
        EAGLE_HDF5_COMPRESSED_SNAPSHOT
        EAGLE_EXTRA_ARRAYS
        EAGLE_SNIPSHOTS
        EAGLE_SORT_OUTPUT
        EAGLE_SUPPRESS_MEMORY_TABLE_DUMP
        EAGLE_OUTPUT_GRID
        EAGLE_OUTPUT_LOS
        MyMaxLosBuffer=4096
        OUTPUTLINEOFSIGHT_PARTICLES
        ANARCHY_SPH
        ANARCHY_SPH_PRESSURE_ENTROPY
        SPH_KERNEL_C2
        HYDRANGEA_REDUCED_SNIPSHOT_CONTENT
        HYDRANGEA_SUPPRESS_HASH_IN_SNIPSHOTS
svn version:exported

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind':
RunLabel                           "HaloF5_DM128_ID103"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    3.5
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_basic.dat
TimeBetSmallSnapshot               0
TimeOfFirstSmallSnapshot           0
FoFOutputListOn                    1
TimeBetOnTheFlyFoF                 1.005
TimeOfFirstGridOutput              0.05
TimeBetGridOutput                  1.025
TimeBetLineOfSight                 1.01
TimeOfFirstLineOfSight             0.09
CpuTimeBetRestartFile              22000
TimeBetStatistics                  0.02
MaxRMSDisplacementFac              0.25
ErrTolThetaSubfind                 0.6
DesLinkNgb                         20
TypeOfTimestepCriterion            0
ErrTolIntAccuracy                  0.025
MaxSizeTimestep                    0.01
MinSizeTimestep                    6e-08
ErrTolTheta                        0.6
TypeOfOpeningCriterion             1
ErrTolForceAcc                     0.005
TreeDomainUpdateFrequency          0.005
DesNumNgb                          58
DesNumNgbStar                      48
DesNumNgbYoungStar                 48
MaxNumNgbDeviation                 1
CourantFac                         0.15
MaxSmoothingLengthChange           1.26
ArtBulkViscConst                   2
ArtBulkViscConstMin                0.05
ArtDiffConst                       1
ArtDiffConstMin                    0
MinGasTemp                         100
InitGasTemp                        268.7
InitMetallicity                    0
InitAbundance_Hydrogen             0.752
InitAbundance_Helium               0.248
InitAbundance_Carbon               0
InitAbundance_Nitrogen             0
InitAbundance_Oxygen               0
InitAbundance_Neon                 0
InitAbundance_Magnesium            0
InitAbundance_Silicon              0
InitAbundance_Iron                 0
CalciumOverSilicon                 0.0941736
SulphurOverSilicon                 0.605416
REION_H_ZCenter                    11.5
REION_H_Heating_EVpH               2
REION_He_ZCenter                   3.5
REION_He_ZSigma                    0.5
REION_He_Heating_EVpH              2
Generations                        1
SF_SchmidtLawCoeff_MSUNpYRpKPC2    0.0001515
SF_SchmidtLawExponent              1.4
SF_SchmidtLawHighDensExponent      2
SF_SchmidtLawHighDensThresh_HpCM3  1000
SF_THRESH_MaxPhysDensOn            0
SF_THRESH_MaxPhysDens_HpCM3        100000
SF_THRESH_MinOverDens              57.7
SF_THRESH_MinPhysDens_HpCM3        0.1
SF_THRESH_TempMargin_DEX           0.5
SF_THRESH_MetDepSFThreshNorm_HpCM3 0.1
SF_THRESH_MetDepSFThreshSlope      -0.64
SF_THRESH_MetDepSFThreshMaxThresh_HpCM310
EOS_NormPhysDens_HpCM3             0.1
EOS_Jeans_MinPhysDens_HpCM3        0.1
EOS_Jeans_MinOverDens              10
EOS_Jeans_GammaEffective           1.33333
EOS_Jeans_TempNorm_K               8000
EOS_Cool_MinOverDens               10
EOS_Cool_MinPhysDens_HpCM3         1e-05
EOS_Cool_GammaEffective            1
EOS_Cool_TempNorm_K                8000
IMF_Model                          Chabrier
IMF_Exponent                       0
IMF_LifetimeModel                  P98
IMF_MinMass_MSUN                   0.1
IMF_MaxMass_MSUN                   100
StellarEvolutionCut_Gyr            0.1
StellarEvolutionTimestepInterval   10
StellarEvolutionCut_Gyr_2          1
StellarEvolutionTimestepInterval_2 100
SNIa_Model                         Efolding
SNIa_Energy_ERG                    1e+51
SNIa_EnergyFraction                1
SNIa_Efficiency                    0.002
SNIa_TimeScale                     2
SNIa_EjectaVelocity_KMpS           10
SNII_MinMass_MSUN                  6
SNII_MaxMass_MSUN                  100
SNII_Factor_Hydrogen               1
SNII_Factor_Helium                 1
SNII_Factor_Carbon                 0.5
SNII_Factor_Nitrogen               1
SNII_Factor_Oxygen                 1
SNII_Factor_Neon                   1
SNII_Factor_Magnesium              2
SNII_Factor_Silicon                1
SNII_Factor_Iron                   0.5
SNII_MinEnergyFraction             0.3
SNII_MaxEnergyFraction             3
SNII_Tvir0_K                       0.00126637
SNII_Width_logTvir_dex             1
SNII_Energy_ERG                    1e+51
SNII_WindDelay_YR                  3e+07
stellar_feedback_mode              thermal
stellar_feedback_DeltaT            constant
stellar_feedback_tvir              vel_disp
SNII_Delta_T_K                     3.16228e+07
SNII_Delta_T_Divided_By_T_Vir      0
SNII_Min_Delta_T_K                 0
SNII_Max_Delta_T_K                 0
SNII_normalisation_Delta_T_K       0
SNII_exponent_Delta_T              0
massDMpart                         -1
BlackHoleNgbFactor                 1
BlackHoleNumberOfNeighboursToHeat  1
BlackHoleAccretionFactor           1
BlackHoleEddingtonFactor           1
BlackHoleAccretionSlope            0
BlackHoleRadiativeEfficiency       0.1
BlackHoleFeedbackFactor            0.15
SeedBlackHoleMass_Msun             100000
MinFoFMassForNewSeed_Msun          1e+10
BlackHoleMaxAccretionRadius        1e+10
BH_MaxRepositionDistanceFactor     3
BH_MaxMergingDistanceFactor        3
BH_maxHeatingProbability           0.3
BH_feedback_mode                   constant
BH_ConstantHeatTemp                1e+09
BH_MinHeatTemp                     0
BH_MaxHeatTemp                     0
BH_MinHeatLimit                    0
BH_MaxHeatLimit                    0
BlackHoleViscousAlpha              10000
SNII_zdep_power                    0
SNII_rhogas_power                  1
SNII_rhogas_physdensnormfac        6.7


found 30 times in output-list.

found 82 times in small output-list.

found 82 times in fof output-list.

Hubble (internal units) = 100
G (internal units) = 43.0071
UnitMass_in_g = 1.989e+43 
UnitTime_in_s = 3.08568e+19 
UnitVelocity_in_cm_per_s = 100000 
UnitDensity_in_cgs = 6.76991e-31 
UnitEnergy_in_cgs = 1.989e+53 

initialize Ewald correction...

reading Ewald tables from file `ewald_spc_table_64_dbl.dat'
initialization of periodic boundaries finished.
EOS normalisation temperature is  8.000000e+03 K, converted to internal energy 8.063068e+11
Cooling EOS normalisation temp is  8.000000e+03 K, converted to internal energy 8.063068e+11
The Jeans mass (assuming a neutral, primordial gas) at the EOS threshold is 9.156013e+06 Msun
Chemistry initialized.
 Stellar Feedback mode is THERMAL
 Stellar Feedback virial temperature calculation is from local dm velocity dispersion. 
 Stellar Feedback heating temperature is constant, and equal to 3.162280e+07 [K]
SNIa model: Efolding, set model to 2
Setting lifetime model to P98
IMF normalization norm=9.999885e-01
IMF initialized.
Computing yield for Hydrogen	 index=0
Computing yield for Helium	 index=1
Computing yield for Carbon	 index=2
Computing yield for Nitrogen	 index=3
Computing yield for Oxygen	 index=4
Computing yield for Neon	 index=5
Computing yield for Magnesium	 index=6
Computing yield for Silicon	 index=7
Computing yield for Iron	 index=8
Computing ejecta
Yields initialized.
 feedback parameters: for your IMF, the number of SNe if type II per solar mass formed = 0.017362, the energy of a single SNe = 1.000000e+51 [erg]
 Using 100 percent of SNII energy, DeltaT = 1.000000e+06 corresponds to a wind speed of 204.574409 km/s and mass loading of 41.715274
 Using 100 percent of SNII energy, DeltaT = 1.000000e+07 corresponds to a wind speed of 646.921083 km/s and mass loading of 4.171527
 using 100 percent of SNII energy, DeltaT = 1.000000e+08 corresponds to a wind speed of 2045.744088 km/s and mass loading of 0.417153
 Using 100 percent of SNII energy, DeltaT = 3.162280e+07 corresponds to a wind speed of 1150.406867 km/s and mass loading of 1.319152
 Black hole feedback temperature will be CONSTANT
Done with cooling table header.


Solar abundances:

Solar abundance of Hydrogen = 0.706498
Solar abundance of Helium = 0.280555
Solar abundance of Carbon = 0.00206654
Solar abundance of Nitrogen = 0.000835626
Solar abundance of Oxygen = 0.00549262
Solar abundance of Neon = 0.00141446
Solar abundance of Magnesium = 0.000590706
Solar abundance of Silicon = 0.000682587
Solar abundance of Sulphur = 0.000408985
Solar abundance of Calcium = 6.4355e-05
Solar abundance of Iron = 0.00110322

SolarMetallicity = 0.0129468
Hydrogen reionisation heating = 1.915792e+12 erg/g
  Helium reionisation heating = 1.915792e+12 erg/g

Allocated 1190.74 MByte for particle storage.


reading file `data//snapshot_029_z000p000/snap_029_z000p000.0.hdf5' on task=0 (contains 17505000 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  17187673  (tot=     0271345230) masstab=0.000787169
Type 2 (disk):     16545  (tot=     0000303834) masstab=0
Type 3 (bulge):   300782  (tot=     0002600221) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0274249285


There is no valid time for a further grid file.

There is no valid time for a further line of sight file.

Setting next time for snipshot file to Time_next= 1

Setting next time for fof output to Time_next= 1
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=4.18603 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 1.61258 MByte for top-level domain structure
use of 30.9145 MB of temporary storage for domain decomposition... (presently allocated=1225.42 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1225.42 Mbyte (on task=1), Smallest = 1225.42 Mbyte, Average = 1225.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
   1 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes      1.4876    1194.5026  domain_allocate()/domain.c/570
   1 2973 0        domain_key     28.6064    1223.1091  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.1144    1223.2352  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.1144    1223.3496  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.1144    1223.4641  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.1144    1223.5785  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.1144    1223.6968  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.1144    1223.8152  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes      1.6020    1225.4172  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0588 MByte for top-level domain structure
use of 31.601 MB of temporary storage for domain decomposition... (presently allocated=1226.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.63897 MByte for top-level domain structure
use of 32.4936 MB of temporary storage for domain decomposition... (presently allocated=1228.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.39315 MByte for top-level domain structure
use of 33.6539 MB of temporary storage for domain decomposition... (presently allocated=1229.94 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 4.37357 MByte for top-level domain structure
use of 35.1622 MB of temporary storage for domain decomposition... (presently allocated=1232.42 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.64816 MByte for top-level domain structure
use of 37.1231 MB of temporary storage for domain decomposition... (presently allocated=1235.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 7.30509 MByte for top-level domain structure
use of 39.6722 MB of temporary storage for domain decomposition... (presently allocated=1239.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 9.45908 MByte for top-level domain structure
use of 42.9861 MB of temporary storage for domain decomposition... (presently allocated=1245.33 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=194985
After=198673
NTopleaves= 173839  NTopnodes=198673 (space for 244687)
gravity work-load balance=1.00045   memory-balance=1.00045   SPH work-load balance=0
iter=0 exchange of 0273046998 particles (ret=0)
domain decomposition done. (took 10.4537 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.10635 MByte in top-level domain structure

Allocated 503.25 MByte for BH-tree, and 0.663143 Mbyte for top-leaves.  (presently allocted 1706.78 MB)

Begin Ngb-tree construction.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 1752.96 Mbyte (on task=35), Smallest = 1752.86 Mbyte, Average = 1752.95 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  35 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
  35 2965 0     ProcessedFlag      3.5758       5.7235  allocate_memory()/allocate.c/52
  35 2966 0  NextActiveParticle     14.3032      20.0267  allocate_memory()/allocate.c/55
  35 2967 0     NextInTimeBin     14.3032      34.3299  allocate_memory()/allocate.c/58
  35 2968 0     PrevInTimeBin     14.3032      48.6331  allocate_memory()/allocate.c/61
  35 2969 0                 P   1144.2569    1192.8900  allocate_memory()/allocate.c/67
  35 2972 0          TopNodes      9.8524    1202.8675  domain_allocate()/domain.c/570
  35 2973 0   DomainNodeIndex      0.6631    1203.5306  force_treeallocate()/forcetree.c/4800
  35 2974 0        Nodes_base    258.4830    1462.0136  force_treeallocate()/forcetree.c/4803
  35 2975 0     Extnodes_base    215.4025    1677.4162  force_treeallocate()/forcetree.c/4811
  35 2976 0          Nextnode     15.0611    1692.4772  force_treeallocate()/forcetree.c/4820
  35 2977 0            Father     14.3032    1706.7805  force_treeallocate()/forcetree.c/4827
  35 2978 0           Ngblist      4.0885    1710.8689  density()/density.c/690
  35 2979 0              Left      8.1770    1719.0459  density()/density.c/692
  35 2980 0             Right      8.1770    1727.2229  density()/density.c/693
  35 2981 0    DataIndexTable      7.0175    1734.2404  density()/density.c/738
  35 2982 0      DataNodeList     18.7134    1752.9538  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.000.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.049.hdf5

Begin to compute FoF group catalogues...  (presently allocated=1706.78 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1192.89 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=1252.44 MB)
Before=180473
After=200841
NTopleaves= 175736  NTopnodes=200841 (space for 244687)
gravity work-load balance=1.00057   memory-balance=1.00057   SPH work-load balance=0
iter=0 exchange of 0273178298 particles (ret=0)
domain decomposition done. (took 4.36225 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.00711 MByte in top-level domain structure

Comoving linking length: 0.0090412    (presently allocated=1202.97 MB)
Tree construction.

Start linking particles (presently allocated=1756.33 MB)
links on local processor done (took 10.6375 sec).
Marked=0071717979 out of the 0271345230 primaries which are linked

linking across processors (presently allocated=1857.94 MB) 
have done 0000967793 cross links (processed 0071717979, took 10.0413 sec)
have done 0000443778 cross links (processed 0058252917, took 9.52316 sec)
have done 0000324524 cross links (processed 0048708466, took 8.71169 sec)
have done 0000229472 cross links (processed 0035742078, took 7.59902 sec)
have done 0000158447 cross links (processed 0026925265, took 5.29108 sec)
have done 0000105833 cross links (processed 0018735236, took 8.58125 sec)
have done 0000070139 cross links (processed 0011740832, took 6.6208 sec)
have done 0000047586 cross links (processed 0006301702, took 5.4344 sec)
have done 0000030500 cross links (processed 0003619518, took 3.57484 sec)
have done 0000019500 cross links (processed 0001285505, took 2.97101 sec)
have done 0000011559 cross links (processed 0000734405, took 0.868239 sec)
have done 0000008047 cross links (processed 0000850836, took 0.277752 sec)
have done 0000006572 cross links (processed 0001329998, took 0.939227 sec)
have done 0000006101 cross links (processed 0001448138, took 2.79473 sec)
have done 0000003981 cross links (processed 0000356840, took 1.02894 sec)
have done 0000002197 cross links (processed 0000082634, took 0.0827489 sec)
have done 0000001307 cross links (processed 0000179714, took 0.853696 sec)
have done 0000001024 cross links (processed 0000116027, took 0.265385 sec)
have done 0000000805 cross links (processed 0000135521, took 0.36741 sec)
have done 0000000603 cross links (processed 0000029466, took 0.066169 sec)
have done 0000000262 cross links (processed 0000005627, took 0.0461631 sec)
have done 0000000110 cross links (processed 0000001654, took 0.04565 sec)
have done 0000000041 cross links (processed 0000000639, took 0.0448811 sec)
have done 0000000014 cross links (processed 0000000181, took 0.0446079 sec)
have done 0000000004 cross links (processed 0000000073, took 0.0447059 sec)
have done 0000000000 cross links (processed 0000000010, took 0.0445261 sec)
Local groups found.

group finding took = 86.934 sec
Start finding nearest dm-particle (presently allocated=1756.33 MB)
still finding nearest... (presently allocated=1845.79 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.109813 sec
compiling local group data and catalogue took = 0.587793 sec

Total number of groups with at least 32 particles: 182812
Largest group has 22579447 particles.
Total number of particles in groups: 0153076418

group properties are now allocated.. (presently allocated=1269.27 MB)
computation of group properties took = 0.0864871 sec
start global sorting of group catalogues number 29
LargestGroup = 17773.845387; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0517242 sec
Group catalogues globally sorted. took = 0.8653 sec
starting saving of group catalogue number 29
data//groups_029_z000p000
Group catalogues number 29 saved. took = 2.51947 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.727002 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.270603 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.719841 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0193776329 particles. (took 20.1701 sec)
ngb iteration 2: need to repeat for 0149875300 particles. (took 9.9497 sec)
ngb iteration 3: need to repeat for 0131462612 particles. (took 7.15058 sec)
ngb iteration 4: need to repeat for 0119356030 particles. (took 5.81757 sec)
ngb iteration 5: need to repeat for 0106332851 particles. (took 5.15155 sec)
ngb iteration 6: need to repeat for 0088255611 particles. (took 4.55089 sec)
ngb iteration 7: need to repeat for 0066196234 particles. (took 3.90691 sec)
ngb iteration 8: need to repeat for 0045084767 particles. (took 3.11201 sec)
ngb iteration 9: need to repeat for 0028525648 particles. (took 2.2879 sec)
ngb iteration 10: need to repeat for 0017179075 particles. (took 1.57604 sec)
ngb iteration 11: need to repeat for 0010052608 particles. (took 1.03088 sec)
ngb iteration 12: need to repeat for 0005803659 particles. (took 0.617221 sec)
ngb iteration 13: need to repeat for 0003344166 particles. (took 0.381252 sec)
ngb iteration 14: need to repeat for 0001831919 particles. (took 0.251066 sec)
ngb iteration 15: need to repeat for 0000874061 particles. (took 0.166997 sec)
ngb iteration 16: need to repeat for 0000467285 particles. (took 0.10468 sec)
ngb iteration 17: need to repeat for 0000263829 particles. (took 0.0760789 sec)
ngb iteration 18: need to repeat for 0000152182 particles. (took 0.062139 sec)
ngb iteration 19: need to repeat for 0000087334 particles. (took 0.0534701 sec)
ngb iteration 20: need to repeat for 0000049415 particles. (took 0.0483599 sec)
ngb iteration 21: need to repeat for 0000026686 particles. (took 0.045006 sec)
ngb iteration 22: need to repeat for 0000013808 particles. (took 0.0432191 sec)
ngb iteration 23: need to repeat for 0000006854 particles. (took 0.042109 sec)
ngb iteration 24: need to repeat for 0000003317 particles. (took 0.0414829 sec)
ngb iteration 25: need to repeat for 0000001516 particles. (took 0.041043 sec)
ngb iteration 26: need to repeat for 0000000678 particles. (took 0.0405321 sec)
ngb iteration 27: need to repeat for 0000000262 particles. (took 0.040462 sec)
ngb iteration 28: need to repeat for 0000000092 particles. (took 0.040252 sec)
ngb iteration 29: need to repeat for 0000000026 particles. (took 0.0404758 sec)
ngb iteration 30: need to repeat for 0000000012 particles. (took 0.0402951 sec)
ngb iteration 31: need to repeat for 0000000003 particles. (took 0.0402451 sec)
ngb iteration 32: need to repeat for 0000000001 particles. (took 0.0401802 sec)
final operations ... 
density and smoothing length for species 1 took 67.325 sec
Tree construction.
tree build took 0.722676 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.270677 sec
Tree construction.
tree build took 0.719816 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.270245 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.175143 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 2.0621 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.724485 sec
density() of species 1 took 2.14577e-06 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.17236 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 2.04843 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.174629 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 2.0548 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.999011 sec
saving densities took 1.74534 sec

Number of FOF halos treated with collective SubFind code = 7
(the adopted size-limit for the collective algorithm was 2624650 particles.)
the other 182805 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 16914 - 61336858 

subfind_exchange()() took 1.64024 sec

collectively doing halo 1, num=29
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3746.12 MB)
Allocated 12.2593 MByte for top-level domain structure
use of 47.2941 MB of temporary storage for domain decomposition... (presently allocated=3805.67 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 3805.68 Mbyte (on task=0), Smallest = 1350.93 Mbyte, Average = 1393.88 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9599    1202.9739  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5332    1227.5071  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8886    1268.3957  fof_fof()/fof.c/337
   0 2975 0             Group      0.8788    1269.2745  fof_fof()/fof.c/380
   0 2976 0          SubGroup   2476.8464    3746.1209  subfind()/subfind.c/376
   0 2979 0          TopNodes     12.1343    3758.3802  domain_allocate()/domain.c/570
   0 2980 0        domain_key     28.6064    3786.9866  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      0.9334    3787.9318  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      0.9334    3788.8652  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      0.9334    3789.7986  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      0.9334    3790.7320  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      0.9334    3791.6693  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      0.9334    3792.6066  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     13.0677    3805.6743  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=127513
After=170369
NTopleaves= 149073  NTopnodes=170369 (space for 244687)
gravity work-load balance=1.0006   memory-balance=1.0006   SPH work-load balance=0
iter=0 exchange of 0022489487 particles (ret=0)
domain decomposition done. (took 1.22165 sec)
Freed 3.40201 MByte in top-level domain structure
------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.5758       5.7225  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     14.3032      20.0257  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     14.3032      34.3289  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     14.3032      48.6321  allocate_memory()/allocate.c/61
   0 2969 0                 P   1144.2569    1192.8890  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      9.9599    1202.9739  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList     24.5332    1227.5071  fof_fof()/fof.c/249
   0 2974 0         FOF_GList     40.8886    1268.3957  fof_fof()/fof.c/337
   0 2975 0             Group      0.8788    1269.2745  fof_fof()/fof.c/380
   0 2976 0          SubGroup   2476.8464    3746.1209  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.4488    3754.6947  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5687    3755.2634  force_treeallocate()/forcetree.c/4800
----------------------------------------------------------------------------------------

Task=0: Not enough memory in mymalloc_fullinfo() to allocate 255.892 MB for variable 'Nodes_base' at force_treeallocate()/forcetree.c/line 4803 (FreeBytes=194.737 MB).
task 0: endrun called with an error level of 812


application called MPI_Abort(MPI_COMM_WORLD, 812) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
task 0: endrun called with an error level of 124


  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
