-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   63005.75 Mb (on task=253), Smallest =   62680.09 Mb (on task=0), Average =   62807.57 Mb
Total Mem:	 Largest =   64532.06 Mb (on task=11), Smallest =   64531.98 Mb (on task=176), Average =   64532.06 Mb
Committed_AS:	 Largest =    1851.96 Mb (on task=0), Smallest =    1526.23 Mb (on task=253), Average =    1724.48 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=143), Smallest =   16268.64 Mb (on task=220), Average =   16348.94 Mb
AllocMem:	 Largest =    1851.96 Mb (on task=0), Smallest =    1526.23 Mb (on task=253), Average =    1724.48 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin067

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=3.71118 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 9.95786 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 3.52393 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 10.6627 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 10.0018 sec)
have done 0000443778 cross links (processed 0058252917, took 9.46041 sec)
have done 0000324524 cross links (processed 0048708466, took 8.7046 sec)
have done 0000229472 cross links (processed 0035742078, took 7.08583 sec)
have done 0000158447 cross links (processed 0026925265, took 4.98005 sec)
have done 0000105833 cross links (processed 0018735236, took 8.57093 sec)
have done 0000070139 cross links (processed 0011740832, took 6.62303 sec)
have done 0000047586 cross links (processed 0006301702, took 5.08489 sec)
have done 0000030500 cross links (processed 0003619518, took 3.34742 sec)
have done 0000019500 cross links (processed 0001285505, took 2.98491 sec)
have done 0000011559 cross links (processed 0000734405, took 0.864339 sec)
have done 0000008047 cross links (processed 0000850836, took 0.271959 sec)
have done 0000006572 cross links (processed 0001329998, took 0.940607 sec)
have done 0000006101 cross links (processed 0001448138, took 2.76715 sec)
have done 0000003981 cross links (processed 0000356840, took 1.01708 sec)
have done 0000002197 cross links (processed 0000082634, took 0.082613 sec)
have done 0000001307 cross links (processed 0000179714, took 0.85307 sec)
have done 0000001024 cross links (processed 0000116027, took 0.265004 sec)
have done 0000000805 cross links (processed 0000135521, took 0.366678 sec)
have done 0000000603 cross links (processed 0000029466, took 0.065099 sec)
have done 0000000262 cross links (processed 0000005627, took 0.0461719 sec)
have done 0000000110 cross links (processed 0000001654, took 0.0454979 sec)
have done 0000000041 cross links (processed 0000000639, took 0.0448818 sec)
have done 0000000014 cross links (processed 0000000181, took 0.044606 sec)
have done 0000000004 cross links (processed 0000000073, took 0.0446441 sec)
have done 0000000000 cross links (processed 0000000010, took 0.0447769 sec)
Local groups found.

group finding took = 85.4033 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 = 0.109756 sec
compiling local group data and catalogue took = 0.588057 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 = 0.0853698 sec
start global sorting of group catalogues number 29
LargestGroup = 17773.845387; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0506649 sec
Group catalogues globally sorted. took = 0.821757 sec
starting saving of group catalogue number 29
data//groups_029_z000p000
Group catalogues number 29 saved. took = 2.49892 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.679786 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.267878 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.712711 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0193776329 particles. (took 20.2663 sec)
ngb iteration 2: need to repeat for 0149875300 particles. (took 9.83248 sec)
ngb iteration 3: need to repeat for 0131462612 particles. (took 6.96799 sec)
ngb iteration 4: need to repeat for 0119356030 particles. (took 5.78813 sec)
ngb iteration 5: need to repeat for 0106332851 particles. (took 5.013 sec)
ngb iteration 6: need to repeat for 0088255611 particles. (took 4.41993 sec)
ngb iteration 7: need to repeat for 0066196234 particles. (took 3.74144 sec)
ngb iteration 8: need to repeat for 0045084767 particles. (took 2.94854 sec)
ngb iteration 9: need to repeat for 0028525648 particles. (took 2.14884 sec)
ngb iteration 10: need to repeat for 0017179075 particles. (took 1.47443 sec)
ngb iteration 11: need to repeat for 0010052608 particles. (took 0.96456 sec)
ngb iteration 12: need to repeat for 0005803659 particles. (took 0.603174 sec)
ngb iteration 13: need to repeat for 0003344166 particles. (took 0.375614 sec)
ngb iteration 14: need to repeat for 0001831919 particles. (took 0.248647 sec)
ngb iteration 15: need to repeat for 0000874061 particles. (took 0.163427 sec)
ngb iteration 16: need to repeat for 0000467285 particles. (took 0.102345 sec)
ngb iteration 17: need to repeat for 0000263829 particles. (took 0.0737121 sec)
ngb iteration 18: need to repeat for 0000152182 particles. (took 0.060708 sec)
ngb iteration 19: need to repeat for 0000087334 particles. (took 0.0524111 sec)
ngb iteration 20: need to repeat for 0000049415 particles. (took 0.0473568 sec)
ngb iteration 21: need to repeat for 0000026686 particles. (took 0.0446751 sec)
ngb iteration 22: need to repeat for 0000013808 particles. (took 0.0429001 sec)
ngb iteration 23: need to repeat for 0000006854 particles. (took 0.0419612 sec)
ngb iteration 24: need to repeat for 0000003317 particles. (took 0.041312 sec)
ngb iteration 25: need to repeat for 0000001516 particles. (took 0.04073 sec)
ngb iteration 26: need to repeat for 0000000678 particles. (took 0.040256 sec)
ngb iteration 27: need to repeat for 0000000262 particles. (took 0.0410171 sec)
ngb iteration 28: need to repeat for 0000000092 particles. (took 0.04004 sec)
ngb iteration 29: need to repeat for 0000000026 particles. (took 0.040076 sec)
ngb iteration 30: need to repeat for 0000000012 particles. (took 0.040127 sec)
ngb iteration 31: need to repeat for 0000000003 particles. (took 0.0399539 sec)
ngb iteration 32: need to repeat for 0000000001 particles. (took 0.040226 sec)
final operations ... 
density and smoothing length for species 1 took 66.1495 sec
Tree construction.
tree build took 0.67876 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.267958 sec
Tree construction.
tree build took 0.676042 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.267411 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.128011 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.91847 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.680027 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.125399 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.91148 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.151212 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.91518 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.840282 sec
saving densities took 2.2299 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 1.53572 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 1.03727 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:
  #000: ../../hdf5-1.8.12/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 =   63006.31 Mb (on task=253), Smallest =   62684.91 Mb (on task=0), Average =   62807.84 Mb
Total Mem:	 Largest =   64532.06 Mb (on task=11), Smallest =   64531.98 Mb (on task=176), Average =   64532.06 Mb
Committed_AS:	 Largest =    1847.15 Mb (on task=0), Smallest =    1525.67 Mb (on task=253), Average =    1724.22 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=143), Smallest =   16268.65 Mb (on task=220), Average =   16348.94 Mb
AllocMem:	 Largest =    1847.15 Mb (on task=0), Smallest =    1525.67 Mb (on task=253), Average =    1724.22 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin067

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=3.66358 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 9.99906 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.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities 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...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities 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 3.45866 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 10.0056 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 7.72142 sec)
have done 0000446128 cross links (processed 0057385096, took 7.03605 sec)
have done 0000325349 cross links (processed 0048366805, took 6.43796 sec)
have done 0000229853 cross links (processed 0036445406, took 6.84344 sec)
have done 0000156758 cross links (processed 0027135679, took 5.51437 sec)
have done 0000104562 cross links (processed 0018911117, took 6.65571 sec)
have done 0000074146 cross links (processed 0012848163, took 6.47489 sec)
have done 0000053789 cross links (processed 0008431690, took 4.64264 sec)
have done 0000038871 cross links (processed 0004423402, took 5.27825 sec)
have done 0000026219 cross links (processed 0002086366, took 3.48696 sec)
have done 0000016352 cross links (processed 0001697610, took 0.586817 sec)
have done 0000013065 cross links (processed 0003038989, took 0.814392 sec)
have done 0000011332 cross links (processed 0002534710, took 4.09025 sec)
have done 0000007304 cross links (processed 0000596836, took 0.682113 sec)
have done 0000004316 cross links (processed 0000360234, took 0.422768 sec)
have done 0000002199 cross links (processed 0000132580, took 0.325039 sec)
have done 0000001156 cross links (processed 0000078562, took 0.424992 sec)
have done 0000000481 cross links (processed 0000006415, took 0.0457499 sec)
have done 0000000203 cross links (processed 0000002578, took 0.0451701 sec)
have done 0000000079 cross links (processed 0000001181, took 0.0452001 sec)
have done 0000000023 cross links (processed 0000000401, took 0.044965 sec)
have done 0000000007 cross links (processed 0000000083, took 0.04459 sec)
have done 0000000003 cross links (processed 0000000026, took 0.0446529 sec)
have done 0000000002 cross links (processed 0000000012, took 0.044657 sec)
have done 0000000001 cross links (processed 0000000005, took 0.0444219 sec)
have done 0000000000 cross links (processed 0000000002, took 0.044812 sec)
Local groups found.

group finding took = 77.978 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 = 0.109404 sec
compiling local group data and catalogue took = 0.577594 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 = 0.0797679 sec
start global sorting of group catalogues number 28
LargestGroup = 17486.756118; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0510371 sec
Group catalogues globally sorted. took = 0.760785 sec
starting saving of group catalogue number 28
data//groups_028_z000p036
Group catalogues number 28 saved. took = 2.56427 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.675005 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.268348 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.671636 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0193448949 particles. (took 20.0271 sec)
ngb iteration 2: need to repeat for 0149659989 particles. (took 9.74953 sec)
ngb iteration 3: need to repeat for 0131241542 particles. (took 6.98405 sec)
ngb iteration 4: need to repeat for 0119174482 particles. (took 5.6927 sec)
ngb iteration 5: need to repeat for 0106197576 particles. (took 4.97757 sec)
ngb iteration 6: need to repeat for 0088203238 particles. (took 4.41095 sec)
ngb iteration 7: need to repeat for 0066230539 particles. (took 3.74668 sec)
ngb iteration 8: need to repeat for 0045159114 particles. (took 2.95404 sec)
ngb iteration 9: need to repeat for 0028598230 particles. (took 2.15843 sec)
ngb iteration 10: need to repeat for 0017241480 particles. (took 1.4874 sec)
ngb iteration 11: need to repeat for 0010093716 particles. (took 0.972927 sec)
ngb iteration 12: need to repeat for 0005829271 particles. (took 0.605765 sec)
ngb iteration 13: need to repeat for 0003355776 particles. (took 0.379757 sec)
ngb iteration 14: need to repeat for 0001834301 particles. (took 0.246549 sec)
ngb iteration 15: need to repeat for 0000872944 particles. (took 0.163444 sec)
ngb iteration 16: need to repeat for 0000462485 particles. (took 0.101635 sec)
ngb iteration 17: need to repeat for 0000257649 particles. (took 0.073199 sec)
ngb iteration 18: need to repeat for 0000147154 particles. (took 0.060349 sec)
ngb iteration 19: need to repeat for 0000083930 particles. (took 0.0521851 sec)
ngb iteration 20: need to repeat for 0000046806 particles. (took 0.0492918 sec)
ngb iteration 21: need to repeat for 0000025106 particles. (took 0.0450311 sec)
ngb iteration 22: need to repeat for 0000012999 particles. (took 0.0429261 sec)
ngb iteration 23: need to repeat for 0000006456 particles. (took 0.0418081 sec)
ngb iteration 24: need to repeat for 0000003029 particles. (took 0.0409169 sec)
ngb iteration 25: need to repeat for 0000001374 particles. (took 0.0403662 sec)
ngb iteration 26: need to repeat for 0000000573 particles. (took 0.0400629 sec)
ngb iteration 27: need to repeat for 0000000224 particles. (took 0.0397809 sec)
ngb iteration 28: need to repeat for 0000000079 particles. (took 0.04568 sec)
ngb iteration 29: need to repeat for 0000000025 particles. (took 0.0399079 sec)
ngb iteration 30: need to repeat for 0000000007 particles. (took 0.039916 sec)
ngb iteration 31: need to repeat for 0000000001 particles. (took 0.0407591 sec)
final operations ... 
density and smoothing length for species 1 took 65.7117 sec
Tree construction.
tree build took 0.689595 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.267504 sec
Tree construction.
tree build took 0.673279 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.26838 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.128067 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.93251 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.673454 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.127335 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.91922 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.128311 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.99059 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.832647 sec
saving densities took 1.88244 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 1.4867 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 1.05103 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:
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 =   63006.63 Mb (on task=253), Smallest =   62685.15 Mb (on task=0), Average =   62807.90 Mb
Total Mem:	 Largest =   64532.06 Mb (on task=11), Smallest =   64531.98 Mb (on task=176), Average =   64532.06 Mb
Committed_AS:	 Largest =    1846.90 Mb (on task=0), Smallest =    1525.35 Mb (on task=253), Average =    1724.16 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=143), Smallest =   16268.66 Mb (on task=220), Average =   16348.94 Mb
AllocMem:	 Largest =    1846.90 Mb (on task=0), Smallest =    1525.35 Mb (on task=253), Average =    1724.16 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin067

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=3.71949 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 10.104 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.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities 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 predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities 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 3.40101 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 9.00939 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 7.29018 sec)
have done 0000444218 cross links (processed 0056090989, took 6.29433 sec)
have done 0000326531 cross links (processed 0047793032, took 4.36585 sec)
have done 0000232069 cross links (processed 0036321600, took 5.59661 sec)
have done 0000165432 cross links (processed 0026369406, took 6.23671 sec)
have done 0000115385 cross links (processed 0018722544, took 5.75401 sec)
have done 0000080074 cross links (processed 0013777664, took 5.89464 sec)
have done 0000053135 cross links (processed 0008603018, took 4.25032 sec)
have done 0000034352 cross links (processed 0004300372, took 3.54008 sec)
have done 0000022128 cross links (processed 0002608634, took 1.1886 sec)
have done 0000017531 cross links (processed 0002839270, took 2.44946 sec)
have done 0000014846 cross links (processed 0002109019, took 2.76345 sec)
have done 0000010178 cross links (processed 0000672627, took 1.50845 sec)
have done 0000005341 cross links (processed 0000292972, took 0.696351 sec)
have done 0000002477 cross links (processed 0000124175, took 0.565282 sec)
have done 0000001118 cross links (processed 0000015108, took 0.048178 sec)
have done 0000000657 cross links (processed 0000016340, took 0.083164 sec)
have done 0000000390 cross links (processed 0000012318, took 0.0828872 sec)
have done 0000000161 cross links (processed 0000002834, took 0.0456519 sec)
have done 0000000082 cross links (processed 0000001766, took 0.0469041 sec)
have done 0000000042 cross links (processed 0000000960, took 0.04565 sec)
have done 0000000025 cross links (processed 0000000229, took 0.0447159 sec)
have done 0000000015 cross links (processed 0000000130, took 0.0444911 sec)
have done 0000000011 cross links (processed 0000000099, took 0.044441 sec)
have done 0000000005 cross links (processed 0000000085, took 0.0445561 sec)
have done 0000000001 cross links (processed 0000000026, took 0.044497 sec)
have done 0000000000 cross links (processed 0000000004, took 0.0444491 sec)
Local groups found.

group finding took = 68.1582 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 = 0.109691 sec
compiling local group data and catalogue took = 0.580852 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 = 0.0783751 sec
start global sorting of group catalogues number 27
LargestGroup = 16478.926065; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.051496 sec
Group catalogues globally sorted. took = 0.738174 sec
starting saving of group catalogue number 27
data//groups_027_z000p073
Group catalogues number 27 saved. took = 2.44487 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.679973 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.266908 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.6726 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0193478383 particles. (took 19.7149 sec)
ngb iteration 2: need to repeat for 0149802674 particles. (took 9.97364 sec)
ngb iteration 3: need to repeat for 0131287624 particles. (took 7.15248 sec)
ngb iteration 4: need to repeat for 0119216681 particles. (took 5.88946 sec)
ngb iteration 5: need to repeat for 0106275005 particles. (took 5.13639 sec)
ngb iteration 6: need to repeat for 0088319125 particles. (took 4.46013 sec)
ngb iteration 7: need to repeat for 0066364554 particles. (took 3.75887 sec)
ngb iteration 8: need to repeat for 0045300768 particles. (took 2.94449 sec)
ngb iteration 9: need to repeat for 0028712063 particles. (took 2.13428 sec)
ngb iteration 10: need to repeat for 0017318539 particles. (took 1.51598 sec)
ngb iteration 11: need to repeat for 0010141942 particles. (took 0.965074 sec)
ngb iteration 12: need to repeat for 0005854881 particles. (took 0.604858 sec)
ngb iteration 13: need to repeat for 0003370664 particles. (took 0.380555 sec)
ngb iteration 14: need to repeat for 0001840809 particles. (took 0.251164 sec)
ngb iteration 15: need to repeat for 0000875429 particles. (took 0.165548 sec)
ngb iteration 16: need to repeat for 0000461089 particles. (took 0.101067 sec)
ngb iteration 17: need to repeat for 0000256343 particles. (took 0.0736501 sec)
ngb iteration 18: need to repeat for 0000145828 particles. (took 0.0604579 sec)
ngb iteration 19: need to repeat for 0000082610 particles. (took 0.052933 sec)
ngb iteration 20: need to repeat for 0000045998 particles. (took 0.0479419 sec)
ngb iteration 21: need to repeat for 0000024967 particles. (took 0.044735 sec)
ngb iteration 22: need to repeat for 0000012889 particles. (took 0.043715 sec)
ngb iteration 23: need to repeat for 0000006447 particles. (took 0.0425899 sec)
ngb iteration 24: need to repeat for 0000003073 particles. (took 0.0411849 sec)
ngb iteration 25: need to repeat for 0000001471 particles. (took 0.0407319 sec)
ngb iteration 26: need to repeat for 0000000666 particles. (took 0.0403001 sec)
ngb iteration 27: need to repeat for 0000000281 particles. (took 0.041635 sec)
ngb iteration 28: need to repeat for 0000000110 particles. (took 0.0399811 sec)
ngb iteration 29: need to repeat for 0000000045 particles. (took 0.0399039 sec)
ngb iteration 30: need to repeat for 0000000015 particles. (took 0.039902 sec)
ngb iteration 31: need to repeat for 0000000005 particles. (took 0.0400321 sec)
ngb iteration 32: need to repeat for 0000000004 particles. (took 0.0399301 sec)
ngb iteration 33: need to repeat for 0000000002 particles. (took 0.039957 sec)
final operations ... 
density and smoothing length for species 1 took 66.2816 sec
Tree construction.
tree build took 0.682932 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.266079 sec
Tree construction.
tree build took 0.674552 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.26645 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.127992 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.93869 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.678081 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.132099 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.91048 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.128161 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.91553 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.907683 sec
saving densities took 2.30581 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 1.45468 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 0.998643 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 =   63006.42 Mb (on task=253), Smallest =   62686.26 Mb (on task=0), Average =   62807.79 Mb
Total Mem:	 Largest =   64532.06 Mb (on task=11), Smallest =   64531.98 Mb (on task=176), Average =   64532.06 Mb
Committed_AS:	 Largest =    1845.79 Mb (on task=0), Smallest =    1525.56 Mb (on task=253), Average =    1724.26 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=143), Smallest =   16268.67 Mb (on task=220), Average =   16348.94 Mb
AllocMem:	 Largest =    1845.79 Mb (on task=0), Smallest =    1525.56 Mb (on task=253), Average =    1724.26 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin067

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=3.7262 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 9.97226 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get 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...
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 3.4411 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 8.94114 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 6.45136 sec)
have done 0000442584 cross links (processed 0055067929, took 6.23518 sec)
have done 0000320406 cross links (processed 0046420742, took 5.07993 sec)
have done 0000224684 cross links (processed 0033355986, took 4.62725 sec)
have done 0000152361 cross links (processed 0023781569, took 3.36232 sec)
have done 0000097236 cross links (processed 0017321910, took 4.29175 sec)
have done 0000062778 cross links (processed 0009280041, took 3.74019 sec)
have done 0000035382 cross links (processed 0002514521, took 2.73325 sec)
have done 0000017740 cross links (processed 0000866705, took 0.241756 sec)
have done 0000010996 cross links (processed 0000853005, took 0.20976 sec)
have done 0000008329 cross links (processed 0001416538, took 1.58239 sec)
have done 0000006006 cross links (processed 0001021039, took 1.48516 sec)
have done 0000004270 cross links (processed 0000153383, took 0.136296 sec)
have done 0000002009 cross links (processed 0000171697, took 0.750473 sec)
have done 0000000723 cross links (processed 0000015182, took 0.061784 sec)
have done 0000000336 cross links (processed 0000006735, took 0.0480042 sec)
have done 0000000197 cross links (processed 0000006862, took 0.0483501 sec)
have done 0000000141 cross links (processed 0000005082, took 0.048388 sec)
have done 0000000112 cross links (processed 0000004744, took 0.04866 sec)
have done 0000000057 cross links (processed 0000002147, took 0.0486529 sec)
have done 0000000017 cross links (processed 0000000231, took 0.045032 sec)
have done 0000000005 cross links (processed 0000000088, took 0.0449111 sec)
have done 0000000003 cross links (processed 0000000030, took 0.044842 sec)
have done 0000000041 cross links (processed 0000002504, took 0.0478501 sec)
have done 0000000038 cross links (processed 0000001898, took 0.0481741 sec)
have done 0000000008 cross links (processed 0000000143, took 0.045135 sec)
have done 0000000004 cross links (processed 0000000057, took 0.0452712 sec)
have done 0000000000 cross links (processed 0000000011, took 0.0448089 sec)
Local groups found.

group finding took = 50.6704 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 = 0.109443 sec
compiling local group data and catalogue took = 0.582008 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 = 0.0819271 sec
start global sorting of group catalogues number 26
LargestGroup = 16088.977396; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0514221 sec
Group catalogues globally sorted. took = 0.820115 sec
starting saving of group catalogue number 26
data//groups_026_z000p101
Group catalogues number 26 saved. took = 2.35461 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.700248 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.267813 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 1.30972 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0193182977 particles. (took 21.1466 sec)
ngb iteration 2: need to repeat for 0149601659 particles. (took 9.87735 sec)
ngb iteration 3: need to repeat for 0131076065 particles. (took 7.09206 sec)
ngb iteration 4: need to repeat for 0119008630 particles. (took 5.84087 sec)
ngb iteration 5: need to repeat for 0106114525 particles. (took 5.0506 sec)
ngb iteration 6: need to repeat for 0088235079 particles. (took 4.39765 sec)
ngb iteration 7: need to repeat for 0066350987 particles. (took 3.72151 sec)
ngb iteration 8: need to repeat for 0045312606 particles. (took 3.02135 sec)
ngb iteration 9: need to repeat for 0028739587 particles. (took 2.12324 sec)
ngb iteration 10: need to repeat for 0017338741 particles. (took 1.46789 sec)
ngb iteration 11: need to repeat for 0010155509 particles. (took 0.964259 sec)
ngb iteration 12: need to repeat for 0005863588 particles. (took 0.648737 sec)
ngb iteration 13: need to repeat for 0003376522 particles. (took 0.375608 sec)
ngb iteration 14: need to repeat for 0001850066 particles. (took 0.247558 sec)
ngb iteration 15: need to repeat for 0000882132 particles. (took 0.163768 sec)
ngb iteration 16: need to repeat for 0000464934 particles. (took 0.102136 sec)
ngb iteration 17: need to repeat for 0000257924 particles. (took 0.073596 sec)
ngb iteration 18: need to repeat for 0000147144 particles. (took 0.060251 sec)
ngb iteration 19: need to repeat for 0000083273 particles. (took 0.053098 sec)
ngb iteration 20: need to repeat for 0000045973 particles. (took 0.047828 sec)
ngb iteration 21: need to repeat for 0000024744 particles. (took 0.0445678 sec)
ngb iteration 22: need to repeat for 0000012759 particles. (took 0.0428371 sec)
ngb iteration 23: need to repeat for 0000006286 particles. (took 0.041672 sec)
ngb iteration 24: need to repeat for 0000003002 particles. (took 0.041223 sec)
ngb iteration 25: need to repeat for 0000001350 particles. (took 0.0404582 sec)
ngb iteration 26: need to repeat for 0000000591 particles. (took 0.0402451 sec)
ngb iteration 27: need to repeat for 0000000245 particles. (took 0.0420039 sec)
ngb iteration 28: need to repeat for 0000000086 particles. (took 0.040077 sec)
ngb iteration 29: need to repeat for 0000000031 particles. (took 0.0399721 sec)
ngb iteration 30: need to repeat for 0000000013 particles. (took 0.0400109 sec)
ngb iteration 31: need to repeat for 0000000002 particles. (took 0.0399699 sec)
final operations ... 
density and smoothing length for species 1 took 67.2916 sec
Tree construction.
tree build took 0.674995 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.267047 sec
Tree construction.
tree build took 0.679995 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.26743 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.128312 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.92186 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.675051 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.12648 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.93942 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.138919 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.90509 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.843538 sec
saving densities took 3.05423 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 1.43063 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 0.983097 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
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 =   63006.01 Mb (on task=253), Smallest =   62683.53 Mb (on task=0), Average =   62807.69 Mb
Total Mem:	 Largest =   64532.06 Mb (on task=11), Smallest =   64531.98 Mb (on task=176), Average =   64532.06 Mb
Committed_AS:	 Largest =    1848.52 Mb (on task=0), Smallest =    1525.97 Mb (on task=253), Average =    1724.37 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=143), Smallest =   16268.67 Mb (on task=220), Average =   16348.94 Mb
AllocMem:	 Largest =    1848.52 Mb (on task=0), Smallest =    1525.97 Mb (on task=253), Average =    1724.37 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin067

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=3.64469 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 10.0592 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.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities 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...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities 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 3.46809 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 8.50906 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 6.12897 sec)
have done 0000442572 cross links (processed 0054706752, took 5.99401 sec)
have done 0000320021 cross links (processed 0046452383, took 5.72494 sec)
have done 0000223726 cross links (processed 0035617138, took 4.98508 sec)
have done 0000151544 cross links (processed 0024441608, took 5.23407 sec)
have done 0000100610 cross links (processed 0016697375, took 4.81468 sec)
have done 0000065372 cross links (processed 0012178530, took 4.75317 sec)
have done 0000039632 cross links (processed 0006269360, took 2.9103 sec)
have done 0000021499 cross links (processed 0002614320, took 4.14737 sec)
have done 0000011752 cross links (processed 0000613331, took 0.187836 sec)
have done 0000007659 cross links (processed 0000608783, took 0.162769 sec)
have done 0000007584 cross links (processed 0001289100, took 0.738954 sec)
have done 0000007297 cross links (processed 0001412471, took 1.7265 sec)
have done 0000004925 cross links (processed 0000210496, took 0.107826 sec)
have done 0000002291 cross links (processed 0000179652, took 0.680609 sec)
have done 0000000872 cross links (processed 0000018677, took 0.050055 sec)
have done 0000000358 cross links (processed 0000005130, took 0.045825 sec)
have done 0000000134 cross links (processed 0000001864, took 0.0448329 sec)
have done 0000000042 cross links (processed 0000000667, took 0.04478 sec)
have done 0000000014 cross links (processed 0000000256, took 0.0446301 sec)
have done 0000000015 cross links (processed 0000000168, took 0.0446441 sec)
have done 0000000006 cross links (processed 0000000100, took 0.044627 sec)
have done 0000000005 cross links (processed 0000000048, took 0.044946 sec)
have done 0000000003 cross links (processed 0000000080, took 0.044579 sec)
have done 0000000001 cross links (processed 0000000018, took 0.0447431 sec)
have done 0000000003 cross links (processed 0000000009, took 0.0445101 sec)
have done 0000000001 cross links (processed 0000000010, took 0.0445259 sec)
have done 0000000000 cross links (processed 0000000002, took 0.044657 sec)
Local groups found.

group finding took = 57.5309 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 = 0.109785 sec
compiling local group data and catalogue took = 0.590147 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 = 0.0760379 sec
start global sorting of group catalogues number 25
LargestGroup = 15919.927299; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.051105 sec
Group catalogues globally sorted. took = 0.748495 sec
starting saving of group catalogue number 25
data//groups_025_z000p113
Group catalogues number 25 saved. took = 2.53178 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.721911 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.262224 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.675991 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0192970869 particles. (took 21.617 sec)
ngb iteration 2: need to repeat for 0149478366 particles. (took 9.78519 sec)
ngb iteration 3: need to repeat for 0130955528 particles. (took 7.02512 sec)
ngb iteration 4: need to repeat for 0118915650 particles. (took 5.69764 sec)
ngb iteration 5: need to repeat for 0106052478 particles. (took 4.96674 sec)
ngb iteration 6: need to repeat for 0088196879 particles. (took 4.38434 sec)
ngb iteration 7: need to repeat for 0066346309 particles. (took 3.69638 sec)
ngb iteration 8: need to repeat for 0045320794 particles. (took 3.00189 sec)
ngb iteration 9: need to repeat for 0028750501 particles. (took 2.12505 sec)
ngb iteration 10: need to repeat for 0017343827 particles. (took 1.53257 sec)
ngb iteration 11: need to repeat for 0010157072 particles. (took 0.962041 sec)
ngb iteration 12: need to repeat for 0005862394 particles. (took 0.59875 sec)
ngb iteration 13: need to repeat for 0003370494 particles. (took 0.37385 sec)
ngb iteration 14: need to repeat for 0001843008 particles. (took 0.244364 sec)
ngb iteration 15: need to repeat for 0000876437 particles. (took 0.16097 sec)
ngb iteration 16: need to repeat for 0000459760 particles. (took 0.0996859 sec)
ngb iteration 17: need to repeat for 0000253493 particles. (took 0.0724289 sec)
ngb iteration 18: need to repeat for 0000143308 particles. (took 0.058831 sec)
ngb iteration 19: need to repeat for 0000081115 particles. (took 0.0521169 sec)
ngb iteration 20: need to repeat for 0000044828 particles. (took 0.0471342 sec)
ngb iteration 21: need to repeat for 0000024212 particles. (took 0.044446 sec)
ngb iteration 22: need to repeat for 0000012546 particles. (took 0.042583 sec)
ngb iteration 23: need to repeat for 0000006114 particles. (took 0.042063 sec)
ngb iteration 24: need to repeat for 0000002854 particles. (took 0.040844 sec)
ngb iteration 25: need to repeat for 0000001293 particles. (took 0.0402408 sec)
ngb iteration 26: need to repeat for 0000000510 particles. (took 0.0402079 sec)
ngb iteration 27: need to repeat for 0000000202 particles. (took 0.03985 sec)
ngb iteration 28: need to repeat for 0000000062 particles. (took 0.039819 sec)
ngb iteration 29: need to repeat for 0000000023 particles. (took 0.039911 sec)
ngb iteration 30: need to repeat for 0000000005 particles. (took 0.0398228 sec)
ngb iteration 31: need to repeat for 0000000002 particles. (took 0.03985 sec)
ngb iteration 32: need to repeat for 0000000002 particles. (took 0.039876 sec)
final operations ... 
density and smoothing length for species 1 took 67.3487 sec
Tree construction.
tree build took 0.689981 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.262409 sec
Tree construction.
tree build took 0.677046 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.262218 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.130298 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.91015 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.678103 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.139073 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.90037 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.134586 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.90611 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.84011 sec
saving densities took 1.67437 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 1.445 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 0.996817 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:
  #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 =   63008.82 Mb (on task=253), Smallest =   62685.57 Mb (on task=0), Average =   62807.95 Mb
Total Mem:	 Largest =   64532.06 Mb (on task=11), Smallest =   64531.98 Mb (on task=176), Average =   64532.06 Mb
Committed_AS:	 Largest =    1846.49 Mb (on task=0), Smallest =    1523.16 Mb (on task=253), Average =    1724.11 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=143), Smallest =   16268.68 Mb (on task=220), Average =   16348.95 Mb
AllocMem:	 Largest =    1846.49 Mb (on task=0), Smallest =    1523.16 Mb (on task=253), Average =    1724.11 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin067

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=3.72644 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 10.0605 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.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities 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...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...

Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get 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 = 1752.76 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 3.39764 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 8.67516 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 6.66754 sec)
have done 0000440415 cross links (processed 0053543034, took 6.38996 sec)
have done 0000317423 cross links (processed 0045241418, took 6.05137 sec)
have done 0000220316 cross links (processed 0033300223, took 4.55152 sec)
have done 0000149355 cross links (processed 0024323480, took 4.58528 sec)
have done 0000093573 cross links (processed 0016731323, took 5.23473 sec)
have done 0000056074 cross links (processed 0009677762, took 4.45137 sec)
have done 0000032580 cross links (processed 0004144627, took 3.16165 sec)
have done 0000017876 cross links (processed 0001352978, took 0.631452 sec)
have done 0000009396 cross links (processed 0000535523, took 0.412462 sec)
have done 0000008048 cross links (processed 0001027375, took 0.761717 sec)
have done 0000008019 cross links (processed 0001435394, took 1.02489 sec)
have done 0000006688 cross links (processed 0000727699, took 2.42509 sec)
have done 0000005177 cross links (processed 0000500296, took 0.535012 sec)
have done 0000006152 cross links (processed 0000998769, took 0.733478 sec)
have done 0000006863 cross links (processed 0001397971, took 1.02087 sec)
have done 0000005226 cross links (processed 0000654716, took 2.41854 sec)
have done 0000002281 cross links (processed 0000168594, took 0.532036 sec)
have done 0000000746 cross links (processed 0000025596, took 0.401968 sec)
have done 0000000308 cross links (processed 0000004113, took 0.045155 sec)
have done 0000000121 cross links (processed 0000001734, took 0.0450511 sec)
have done 0000000055 cross links (processed 0000000596, took 0.044517 sec)
have done 0000000026 cross links (processed 0000000211, took 0.0446279 sec)
have done 0000000008 cross links (processed 0000000113, took 0.044724 sec)
have done 0000000003 cross links (processed 0000000025, took 0.0443649 sec)
have done 0000000000 cross links (processed 0000000007, took 0.044338 sec)
Local groups found.

group finding took = 61.1098 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 = 0.109329 sec
compiling local group data and catalogue took = 0.584685 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 = 0.0748858 sec
start global sorting of group catalogues number 24
LargestGroup = 15649.433919; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0513051 sec
Group catalogues globally sorted. took = 0.725997 sec
starting saving of group catalogue number 24
data//groups_024_z000p155
Group catalogues number 24 saved. took = 3.03258 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.6654 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.280086 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.662216 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0192607179 particles. (took 20.0076 sec)
ngb iteration 2: need to repeat for 0149241978 particles. (took 9.83563 sec)
ngb iteration 3: need to repeat for 0130628979 particles. (took 6.91977 sec)
ngb iteration 4: need to repeat for 0118582916 particles. (took 5.68803 sec)
ngb iteration 5: need to repeat for 0105741019 particles. (took 4.96637 sec)
ngb iteration 6: need to repeat for 0087987869 particles. (took 4.37894 sec)
ngb iteration 7: need to repeat for 0066248714 particles. (took 3.69573 sec)
ngb iteration 8: need to repeat for 0045308079 particles. (took 2.90125 sec)
ngb iteration 9: need to repeat for 0028766930 particles. (took 2.11711 sec)
ngb iteration 10: need to repeat for 0017370251 particles. (took 1.46402 sec)
ngb iteration 11: need to repeat for 0010178470 particles. (took 0.953164 sec)
ngb iteration 12: need to repeat for 0005871602 particles. (took 0.593307 sec)
ngb iteration 13: need to repeat for 0003371375 particles. (took 0.371607 sec)
ngb iteration 14: need to repeat for 0001839347 particles. (took 0.245776 sec)
ngb iteration 15: need to repeat for 0000871999 particles. (took 0.162595 sec)
ngb iteration 16: need to repeat for 0000454030 particles. (took 0.100884 sec)
ngb iteration 17: need to repeat for 0000248849 particles. (took 0.0725701 sec)
ngb iteration 18: need to repeat for 0000139692 particles. (took 0.0588591 sec)
ngb iteration 19: need to repeat for 0000077789 particles. (took 0.0513742 sec)
ngb iteration 20: need to repeat for 0000042546 particles. (took 0.046999 sec)
ngb iteration 21: need to repeat for 0000022442 particles. (took 0.044142 sec)
ngb iteration 22: need to repeat for 0000011383 particles. (took 0.042304 sec)
ngb iteration 23: need to repeat for 0000005522 particles. (took 0.0412931 sec)
ngb iteration 24: need to repeat for 0000002580 particles. (took 0.04073 sec)
ngb iteration 25: need to repeat for 0000001149 particles. (took 0.0402629 sec)
ngb iteration 26: need to repeat for 0000000440 particles. (took 0.04019 sec)
ngb iteration 27: need to repeat for 0000000159 particles. (took 0.039959 sec)
ngb iteration 28: need to repeat for 0000000066 particles. (took 0.0398529 sec)
ngb iteration 29: need to repeat for 0000000016 particles. (took 0.0398591 sec)
ngb iteration 30: need to repeat for 0000000005 particles. (took 0.0398369 sec)
ngb iteration 31: need to repeat for 0000000002 particles. (took 0.0398109 sec)
ngb iteration 32: need to repeat for 0000000001 particles. (took 0.0398228 sec)
final operations ... 
density and smoothing length for species 1 took 65.4855 sec
Tree construction.
tree build took 0.666226 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.281479 sec
Tree construction.
tree build took 0.66241 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.28047 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.120269 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.92179 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.661938 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.148467 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.91374 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.121103 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.92139 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.838981 sec
saving densities took 2.57557 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 1.64604 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 0.956608 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
    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 =   63013.26 Mb (on task=253), Smallest =   62731.05 Mb (on task=0), Average =   62809.32 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=88), Smallest =   64531.98 Mb (on task=121), Average =   64532.08 Mb
Committed_AS:	 Largest =    1801.02 Mb (on task=0), Smallest =    1518.80 Mb (on task=253), Average =    1722.77 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16358.93 Mb (on task=165), Smallest =   16262.80 Mb (on task=33), Average =   16337.56 Mb
AllocMem:	 Largest =    1801.02 Mb (on task=0), Smallest =    1518.80 Mb (on task=253), Average =    1722.77 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin052

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.N11':
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                         5450
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=5.491 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 9.89558 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...
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...

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 3.46027 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 10.6655 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 10.0469 sec)
have done 0000443778 cross links (processed 0058252917, took 9.45965 sec)
have done 0000324524 cross links (processed 0048708466, took 8.6542 sec)
have done 0000229472 cross links (processed 0035742078, took 7.11717 sec)
have done 0000158447 cross links (processed 0026925265, took 4.97614 sec)
have done 0000105833 cross links (processed 0018735236, took 8.57349 sec)
have done 0000070139 cross links (processed 0011740832, took 6.62792 sec)
have done 0000047586 cross links (processed 0006301702, took 5.07662 sec)
have done 0000030500 cross links (processed 0003619518, took 3.34534 sec)
have done 0000019500 cross links (processed 0001285505, took 2.98073 sec)
have done 0000011559 cross links (processed 0000734405, took 0.864979 sec)
have done 0000008047 cross links (processed 0000850836, took 0.271171 sec)
have done 0000006572 cross links (processed 0001329998, took 0.938798 sec)
have done 0000006101 cross links (processed 0001448138, took 2.76301 sec)
have done 0000003981 cross links (processed 0000356840, took 1.01634 sec)
have done 0000002197 cross links (processed 0000082634, took 0.0831299 sec)
have done 0000001307 cross links (processed 0000179714, took 0.85197 sec)
have done 0000001024 cross links (processed 0000116027, took 0.263804 sec)
have done 0000000805 cross links (processed 0000135521, took 0.36711 sec)
have done 0000000603 cross links (processed 0000029466, took 0.0650868 sec)
have done 0000000262 cross links (processed 0000005627, took 0.046221 sec)
have done 0000000110 cross links (processed 0000001654, took 0.0507751 sec)
have done 0000000041 cross links (processed 0000000639, took 0.044879 sec)
have done 0000000014 cross links (processed 0000000181, took 0.044755 sec)
have done 0000000004 cross links (processed 0000000073, took 0.051461 sec)
have done 0000000000 cross links (processed 0000000010, took 0.045717 sec)
Local groups found.

group finding took = 85.426 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 = 0.110176 sec
compiling local group data and catalogue took = 0.58945 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 = 0.0848112 sec
start global sorting of group catalogues number 29
LargestGroup = 17773.845387; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.051358 sec
Group catalogues globally sorted. took = 0.785894 sec
starting saving of group catalogue number 29
data//groups_029_z000p000
Group catalogues number 29 saved. took = 3.76359 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.686367 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.267925 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.674724 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0193776329 particles. (took 20.2105 sec)
ngb iteration 2: need to repeat for 0149875300 particles. (took 9.82855 sec)
ngb iteration 3: need to repeat for 0131462612 particles. (took 6.97184 sec)
ngb iteration 4: need to repeat for 0119356030 particles. (took 5.72391 sec)
ngb iteration 5: need to repeat for 0106332851 particles. (took 5.01537 sec)
ngb iteration 6: need to repeat for 0088255611 particles. (took 4.42582 sec)
ngb iteration 7: need to repeat for 0066196234 particles. (took 3.74224 sec)
ngb iteration 8: need to repeat for 0045084767 particles. (took 2.93849 sec)
ngb iteration 9: need to repeat for 0028525648 particles. (took 2.15046 sec)
ngb iteration 10: need to repeat for 0017179075 particles. (took 1.47787 sec)
ngb iteration 11: need to repeat for 0010052608 particles. (took 0.965887 sec)
ngb iteration 12: need to repeat for 0005803659 particles. (took 0.602894 sec)
ngb iteration 13: need to repeat for 0003344166 particles. (took 0.37539 sec)
ngb iteration 14: need to repeat for 0001831919 particles. (took 0.247953 sec)
ngb iteration 15: need to repeat for 0000874061 particles. (took 0.163871 sec)
ngb iteration 16: need to repeat for 0000467285 particles. (took 0.101994 sec)
ngb iteration 17: need to repeat for 0000263829 particles. (took 0.073864 sec)
ngb iteration 18: need to repeat for 0000152182 particles. (took 0.0605259 sec)
ngb iteration 19: need to repeat for 0000087334 particles. (took 0.0524271 sec)
ngb iteration 20: need to repeat for 0000049415 particles. (took 0.0478029 sec)
ngb iteration 21: need to repeat for 0000026686 particles. (took 0.0448339 sec)
ngb iteration 22: need to repeat for 0000013808 particles. (took 0.0436101 sec)
ngb iteration 23: need to repeat for 0000006854 particles. (took 0.0420771 sec)
ngb iteration 24: need to repeat for 0000003317 particles. (took 0.0412469 sec)
ngb iteration 25: need to repeat for 0000001516 particles. (took 0.0407119 sec)
ngb iteration 26: need to repeat for 0000000678 particles. (took 0.0405641 sec)
ngb iteration 27: need to repeat for 0000000262 particles. (took 0.0404131 sec)
ngb iteration 28: need to repeat for 0000000092 particles. (took 0.0401001 sec)
ngb iteration 29: need to repeat for 0000000026 particles. (took 0.0401578 sec)
ngb iteration 30: need to repeat for 0000000012 particles. (took 0.040211 sec)
ngb iteration 31: need to repeat for 0000000003 particles. (took 0.040211 sec)
ngb iteration 32: need to repeat for 0000000001 particles. (took 0.0403259 sec)
final operations ... 
density and smoothing length for species 1 took 66.0354 sec
Tree construction.
tree build took 0.678702 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.268596 sec
Tree construction.
tree build took 0.673426 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.267818 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.12735 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.93474 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.67301 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.12648 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.91312 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.130795 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.91175 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.831715 sec
saving densities took 3.18439 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 1.54307 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 1.05271 sec)
Freed 3.40201 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 4253.66 Mbyte (on task=0), Smallest = 1798.91 Mbyte, Average = 1841.86 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      9.9599    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
   0 2981 0        Nodes_base    255.8917    4011.1551  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base    213.2431    4224.3982  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9531    4239.3513  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    4253.6545  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.47296 sec  (presently allocated=4253.65 MB)
force_treebuild() took 1.79153 sec (presently allocated=4253.65 MB)
Start find_linkngb (87898 particles on task=0)
find linkngb iteration 1: need to repeat for 0019898738 particles. (took 1.78505 sec)
find linkngb iteration 2: need to repeat for 0017536635 particles. (took 1.18224 sec)
find linkngb iteration 3: need to repeat for 0016697387 particles. (took 0.801918 sec)
find linkngb iteration 4: need to repeat for 0014492865 particles. (took 0.893547 sec)
find linkngb iteration 5: need to repeat for 0011998324 particles. (took 0.77308 sec)
find linkngb iteration 6: need to repeat for 0008677617 particles. (took 0.651416 sec)
find linkngb iteration 7: need to repeat for 0005456475 particles. (took 0.478326 sec)
find linkngb iteration 8: need to repeat for 0003102178 particles. (took 0.293712 sec)
find linkngb iteration 9: need to repeat for 0001664273 particles. (took 0.170889 sec)
find linkngb iteration 10: need to repeat for 0000863892 particles. (took 0.0989301 sec)
find linkngb iteration 11: need to repeat for 0000439393 particles. (took 0.0577989 sec)
find linkngb iteration 12: need to repeat for 0000092661 particles. (took 0.0343928 sec)
find linkngb iteration 13: need to repeat for 0000002360 particles. (took 0.0119231 sec)
find linkngb iteration 14: need to repeat for 0000000821 particles. (took 0.00118399 sec)
find linkngb iteration 15: need to repeat for 0000000342 particles. (took 0.00075388 sec)
find linkngb iteration 16: need to repeat for 0000000128 particles. (took 0.00061512 sec)
find linkngb iteration 17: need to repeat for 0000000039 particles. (took 0.00058794 sec)
find linkngb iteration 18: need to repeat for 0000000014 particles. (took 0.000562906 sec)
find linkngb iteration 19: need to repeat for 0000000005 particles. (took 0.000566959 sec)
find_linkngb() took 7.23917 sec
Start finding nearest two (87898 particles on task=0)
find_nearesttwo() took 1.25841 sec (presently allocated=4260.36 MB)
parallel sort of densities done. took 0.116939 sec
building distributed linked list. (presently allocated 4259.49 MB)
identification of primary candidates took 552.166 sec
adding background as candidate took 0.161465 sec
establishing of rank order took 161.622 sec  (p=22579447, grouplen=22579447) presently allocated 4259.49 MB

total number of subhalo candidates=112122

number of subhalo candidates that can be done independently=97403.
(Largest size is 2668, finding them took 0.07792 sec)
particles are marked (took 130.253)
independent subhalos are assembled on individual CPUs for unbinding (0.227328 sec, (presently allocated=4259.49 MB)
unbinding of independent ones took 0.0946441 sec
particles have returned to their original processor (0.284067 sec, presently allocated 4259.49 MB)

number of subhalo candidates that can be done independently=13465.
(Largest size is 40464, finding them took 0.957924 sec)
particles are marked (took 89.6667)
independent subhalos are assembled on individual CPUs for unbinding (0.195418 sec, (presently allocated=4259.49 MB)
unbinding of independent ones took 1.02114 sec
particles have returned to their original processor (0.250237 sec, presently allocated 4259.49 MB)

number of subhalo candidates that can be done independently=1160.
(Largest size is 222702, finding them took 0.927951 sec)
particles are marked (took 68.7018)
independent subhalos are assembled on individual CPUs for unbinding (0.166474 sec, (presently allocated=4259.49 MB)
unbinding of independent ones took 3.00619 sec
particles have returned to their original processor (0.227464 sec, presently allocated 4259.49 MB)

number of subhalo candidates that can be done independently=84.
(Largest size is 222702, finding them took 1.07162 sec)
particles are marked (took 63.7014)
independent subhalos are assembled on individual CPUs for unbinding (0.172477 sec, (presently allocated=4259.49 MB)
unbinding of independent ones took 4.50426 sec
particles have returned to their original processor (0.235456 sec, presently allocated 4259.49 MB)

number of subhalo candidates that can be done independently=5.
(Largest size is 4140455, finding them took 0.47456 sec)
too big candidates, I do the rest collectively

collective unbinding of nr=0 (10) of length=113131 ... maximum alloacted 4259.82 MB
took 2.56112 sec
collective unbinding of nr=1 (10) of length=4140455 ... maximum alloacted 4259.82 MB
took 60.3146 sec
collective unbinding of nr=2 (10) of length=10817 ... maximum alloacted 4259.82 MB
took 1.40773 sec
collective unbinding of nr=3 (10) of length=222702 ... maximum alloacted 4259.82 MB
took 4.12745 sec
collective unbinding of nr=4 (10) of length=6240 ... maximum alloacted 4259.82 MB
took 1.23764 sec
collective unbinding of nr=5 (10) of length=96702 ... maximum alloacted 4259.82 MB
took 2.38871 sec
collective unbinding of nr=6 (10) of length=191684 ... maximum alloacted 4259.82 MB
took 4.57714 sec
collective unbinding of nr=7 (10) of length=830152 ... maximum alloacted 4259.82 MB
took 13.6025 sec
collective unbinding of nr=8 (10) of length=6793 ... maximum alloacted 4259.82 MB
took 1.27892 sec
collective unbinding of nr=9 (10) of length=22579447 ... maximum alloacted 4259.82 MB
took 384.324 sec

the collective unbinding of remaining halos took 525.635 sec

found 7186 bound substructures in FoF group of length 22579447
determination of parent subhalo took 0.100338 sec (presently allocated 4259.82 MB)
determining substructure properties took 469.649 sec (presently allocated 4259.82 MB)

collectively doing halo 2, 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)
Before=128193
After=163113
NTopleaves= 142724  NTopnodes=163113 (space for 244687)
gravity work-load balance=1.00048   memory-balance=1.00048   SPH work-load balance=0
iter=0 exchange of 0012146419 particles (ret=0)
domain decomposition done. (took 0.951817 sec)
Freed 3.73416 MByte in top-level domain structure
coldomain_Decomposition() took 1.36821 sec  (presently allocated=4252.02 MB)
force_treebuild() took 1.73867 sec (presently allocated=4252.02 MB)
Start find_linkngb (47467 particles on task=0)
find linkngb iteration 1: need to repeat for 0011565421 particles. (took 0.929925 sec)
find linkngb iteration 2: need to repeat for 0010557257 particles. (took 0.655357 sec)
find linkngb iteration 3: need to repeat for 0010065875 particles. (took 0.447869 sec)
find linkngb iteration 4: need to repeat for 0008802225 particles. (took 0.50503 sec)
find linkngb iteration 5: need to repeat for 0007306763 particles. (took 0.434456 sec)
find linkngb iteration 6: need to repeat for 0005288035 particles. (took 0.359618 sec)
find linkngb iteration 7: need to repeat for 0003326719 particles. (took 0.255748 sec)
find linkngb iteration 8: need to repeat for 0001892333 particles. (took 0.161861 sec)
find linkngb iteration 9: need to repeat for 0001014927 particles. (took 0.097558 sec)
find linkngb iteration 10: need to repeat for 0000527242 particles. (took 0.0568068 sec)
find linkngb iteration 11: need to repeat for 0000268201 particles. (took 0.034354 sec)
find linkngb iteration 12: need to repeat for 0000057207 particles. (took 0.0432291 sec)
find linkngb iteration 13: need to repeat for 0000001599 particles. (took 0.0332992 sec)
find linkngb iteration 14: need to repeat for 0000000622 particles. (took 0.00332093 sec)
find linkngb iteration 15: need to repeat for 0000000248 particles. (took 0.000941992 sec)
find linkngb iteration 16: need to repeat for 0000000083 particles. (took 0.000720024 sec)
find linkngb iteration 17: need to repeat for 0000000029 particles. (took 0.000438929 sec)
find linkngb iteration 18: need to repeat for 0000000015 particles. (took 0.00148201 sec)
find linkngb iteration 19: need to repeat for 0000000002 particles. (took 0.00298691 sec)
find_linkngb() took 4.02747 sec
Start finding nearest two (47467 particles on task=0)
find_nearesttwo() took 0.697981 sec (presently allocated=4255.65 MB)
parallel sort of densities done. took 0.0659819 sec
building distributed linked list. (presently allocated 4255.18 MB)
identification of primary candidates took 289.506 sec
adding background as candidate took 0.162209 sec
establishing of rank order took 89.9686 sec  (p=12197654, grouplen=12197654) presently allocated 4255.18 MB

total number of subhalo candidates=61322

number of subhalo candidates that can be done independently=53105.
(Largest size is 2551, finding them took 0.0167141 sec)
particles are marked (took 71.6126)
independent subhalos are assembled on individual CPUs for unbinding (0.187255 sec, (presently allocated=4255.18 MB)
unbinding of independent ones took 0.0816379 sec
particles have returned to their original processor (0.244305 sec, presently allocated 4255.18 MB)

number of subhalo candidates that can be done independently=7514.
(Largest size is 14461, finding them took 0.905739 sec)
particles are marked (took 49.7221)
independent subhalos are assembled on individual CPUs for unbinding (0.173675 sec, (presently allocated=4255.18 MB)
unbinding of independent ones took 0.612219 sec
particles have returned to their original processor (0.232486 sec, presently allocated 4255.18 MB)

number of subhalo candidates that can be done independently=642.
(Largest size is 76955, finding them took 0.888367 sec)
particles are marked (took 38.0814)
independent subhalos are assembled on individual CPUs for unbinding (0.159675 sec, (presently allocated=4255.18 MB)
unbinding of independent ones took 2.23728 sec
particles have returned to their original processor (0.220573 sec, presently allocated 4255.18 MB)

number of subhalo candidates that can be done independently=53.
(Largest size is 180694, finding them took 1.07421 sec)
particles are marked (took 34.1619)
independent subhalos are assembled on individual CPUs for unbinding (0.155065 sec, (presently allocated=4255.18 MB)
unbinding of independent ones took 3.35506 sec
particles have returned to their original processor (0.21954 sec, presently allocated 4255.18 MB)

number of subhalo candidates that can be done independently=6.
(Largest size is 180694, finding them took 0.450852 sec)
particles are marked (took 29.7989)
independent subhalos are assembled on individual CPUs for unbinding (0.149335 sec, (presently allocated=4255.18 MB)
unbinding of independent ones took 1.70246 sec
particles have returned to their original processor (0.21439 sec, presently allocated 4255.18 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 180694, finding them took 0.447381 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=180694 ... maximum alloacted 4255.36 MB
took 3.80662 sec
collective unbinding of nr=1 (2) of length=12197654 ... maximum alloacted 4255.36 MB
took 198.716 sec

the collective unbinding of remaining halos took 229.762 sec

found 3908 bound substructures in FoF group of length 12197654
determination of parent subhalo took 0.0404899 sec (presently allocated 4255.36 MB)
determining substructure properties took 228.292 sec (presently allocated 4255.36 MB)

collectively doing halo 3, 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)
Before=138601
After=163929
NTopleaves= 143438  NTopnodes=163929 (space for 244687)
gravity work-load balance=1.00046   memory-balance=1.00046   SPH work-load balance=0
iter=0 exchange of 0005489680 particles (ret=0)
domain decomposition done. (took 0.898453 sec)
Freed 3.69681 MByte in top-level domain structure
coldomain_Decomposition() took 1.31401 sec  (presently allocated=4252.21 MB)
force_treebuild() took 1.75408 sec (presently allocated=4252.21 MB)
Start find_linkngb (21541 particles on task=0)
find linkngb iteration 1: need to repeat for 0005448358 particles. (took 0.404842 sec)
find linkngb iteration 2: need to repeat for 0005241905 particles. (took 0.277986 sec)
find linkngb iteration 3: need to repeat for 0005014912 particles. (took 0.190693 sec)
find linkngb iteration 4: need to repeat for 0004446803 particles. (took 0.216982 sec)
find linkngb iteration 5: need to repeat for 0003710632 particles. (took 0.202828 sec)
find linkngb iteration 6: need to repeat for 0002694382 particles. (took 0.181797 sec)
find linkngb iteration 7: need to repeat for 0001697670 particles. (took 0.110449 sec)
find linkngb iteration 8: need to repeat for 0000967169 particles. (took 0.0736659 sec)
find linkngb iteration 9: need to repeat for 0000519009 particles. (took 0.045804 sec)
find linkngb iteration 10: need to repeat for 0000269864 particles. (took 0.0284529 sec)
find linkngb iteration 11: need to repeat for 0000137214 particles. (took 0.0183921 sec)
find linkngb iteration 12: need to repeat for 0000029330 particles. (took 0.0148132 sec)
find linkngb iteration 13: need to repeat for 0000000895 particles. (took 0.00639987 sec)
find linkngb iteration 14: need to repeat for 0000000355 particles. (took 0.000658989 sec)
find linkngb iteration 15: need to repeat for 0000000147 particles. (took 0.000411034 sec)
find linkngb iteration 16: need to repeat for 0000000062 particles. (took 0.000370979 sec)
find linkngb iteration 17: need to repeat for 0000000022 particles. (took 0.000342846 sec)
find linkngb iteration 18: need to repeat for 0000000007 particles. (took 0.000329971 sec)
find linkngb iteration 19: need to repeat for 0000000001 particles. (took 0.000330925 sec)
find_linkngb() took 1.77642 sec
Start finding nearest two (21541 particles on task=0)
find_nearesttwo() took 0.326397 sec (presently allocated=4253.85 MB)
parallel sort of densities done. took 0.0417011 sec
building distributed linked list. (presently allocated 4253.64 MB)
identification of primary candidates took 134.695 sec
adding background as candidate took 0.159694 sec
establishing of rank order took 42.6892 sec  (p=5511962, grouplen=5511962) presently allocated 4253.64 MB

total number of subhalo candidates=25864

number of subhalo candidates that can be done independently=22892.
(Largest size is 3347, finding them took 0.00693107 sec)
particles are marked (took 30.8664)
independent subhalos are assembled on individual CPUs for unbinding (0.159511 sec, (presently allocated=4253.64 MB)
unbinding of independent ones took 0.077095 sec
particles have returned to their original processor (0.222291 sec, presently allocated 4253.64 MB)

number of subhalo candidates that can be done independently=2763.
(Largest size is 46761, finding them took 0.902022 sec)
particles are marked (took 20.9887)
independent subhalos are assembled on individual CPUs for unbinding (0.159095 sec, (presently allocated=4253.64 MB)
unbinding of independent ones took 1.11837 sec
particles have returned to their original processor (0.222029 sec, presently allocated 4253.64 MB)

number of subhalo candidates that can be done independently=193.
(Largest size is 108870, finding them took 0.906203 sec)
particles are marked (took 18.1466)
independent subhalos are assembled on individual CPUs for unbinding (0.164028 sec, (presently allocated=4253.64 MB)
unbinding of independent ones took 2.84125 sec
particles have returned to their original processor (0.237776 sec, presently allocated 4253.64 MB)

number of subhalo candidates that can be done independently=11.
(Largest size is 35204, finding them took 0.449968 sec)
particles are marked (took 13.2601)
independent subhalos are assembled on individual CPUs for unbinding (0.149517 sec, (presently allocated=4253.64 MB)
unbinding of independent ones took 0.882363 sec
particles have returned to their original processor (0.214994 sec, presently allocated 4253.64 MB)

number of subhalo candidates that can be done independently=4.
(Largest size is 115618, finding them took 0.446507 sec)
particles are marked (took 13.8904)
independent subhalos are assembled on individual CPUs for unbinding (0.15391 sec, (presently allocated=4253.64 MB)
unbinding of independent ones took 3.19527 sec
particles have returned to their original processor (0.226983 sec, presently allocated 4253.64 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 5511962, finding them took 0.44921 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=5511962 ... maximum alloacted 4253.72 MB
took 91.3938 sec

the collective unbinding of remaining halos took 102.944 sec

found 1880 bound substructures in FoF group of length 5511962
determination of parent subhalo took 0.0371389 sec (presently allocated 4253.72 MB)
determining substructure properties took 106.613 sec (presently allocated 4253.72 MB)

collectively doing halo 4, 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)
Before=141913
After=165713
NTopleaves= 144999  NTopnodes=165713 (space for 244687)
gravity work-load balance=1.00037   memory-balance=1.00037   SPH work-load balance=0
iter=0 exchange of 0004870790 particles (ret=0)
domain decomposition done. (took 0.888263 sec)
Freed 3.61514 MByte in top-level domain structure
coldomain_Decomposition() took 1.30369 sec  (presently allocated=4252.61 MB)
force_treebuild() took 1.76383 sec (presently allocated=4252.61 MB)
Start find_linkngb (19107 particles on task=0)
find linkngb iteration 1: need to repeat for 0004852566 particles. (took 0.355952 sec)
find linkngb iteration 2: need to repeat for 0004698181 particles. (took 0.242204 sec)
find linkngb iteration 3: need to repeat for 0004498536 particles. (took 0.166251 sec)
find linkngb iteration 4: need to repeat for 0004002830 particles. (took 0.190632 sec)
find linkngb iteration 5: need to repeat for 0003350361 particles. (took 0.162829 sec)
find linkngb iteration 6: need to repeat for 0002438324 particles. (took 0.134963 sec)
find linkngb iteration 7: need to repeat for 0001539464 particles. (took 0.0975959 sec)
find linkngb iteration 8: need to repeat for 0000878816 particles. (took 0.0664299 sec)
find linkngb iteration 9: need to repeat for 0000472407 particles. (took 0.0414269 sec)
find linkngb iteration 10: need to repeat for 0000244988 particles. (took 0.026406 sec)
find linkngb iteration 11: need to repeat for 0000124324 particles. (took 0.0174658 sec)
find linkngb iteration 12: need to repeat for 0000026965 particles. (took 0.0121861 sec)
find linkngb iteration 13: need to repeat for 0000000937 particles. (took 0.00610805 sec)
find linkngb iteration 14: need to repeat for 0000000341 particles. (took 0.00746608 sec)
find linkngb iteration 15: need to repeat for 0000000132 particles. (took 0.00683618 sec)
find linkngb iteration 16: need to repeat for 0000000040 particles. (took 0.00377297 sec)
find linkngb iteration 17: need to repeat for 0000000016 particles. (took 0.00307178 sec)
find linkngb iteration 18: need to repeat for 0000000002 particles. (took 0.00259495 sec)
find_linkngb() took 1.54581 sec
Start finding nearest two (19107 particles on task=0)
find_nearesttwo() took 0.314068 sec (presently allocated=4254.07 MB)
parallel sort of densities done. took 0.0421021 sec
building distributed linked list. (presently allocated 4253.88 MB)
identification of primary candidates took 119.466 sec
adding background as candidate took 0.160907 sec
establishing of rank order took 38.4113 sec  (p=4890098, grouplen=4890098) presently allocated 4253.88 MB

total number of subhalo candidates=22222

number of subhalo candidates that can be done independently=19761.
(Largest size is 5122, finding them took 0.00599599 sec)
particles are marked (took 27.0106)
independent subhalos are assembled on individual CPUs for unbinding (0.15671 sec, (presently allocated=4253.88 MB)
unbinding of independent ones took 0.0909131 sec
particles have returned to their original processor (0.219051 sec, presently allocated 4253.88 MB)

number of subhalo candidates that can be done independently=2278.
(Largest size is 16660, finding them took 0.906498 sec)
particles are marked (took 17.9189)
independent subhalos are assembled on individual CPUs for unbinding (0.154592 sec, (presently allocated=4253.88 MB)
unbinding of independent ones took 0.392723 sec
particles have returned to their original processor (0.218599 sec, presently allocated 4253.88 MB)

number of subhalo candidates that can be done independently=169.
(Largest size is 69315, finding them took 1.05105 sec)
particles are marked (took 15.7476)
independent subhalos are assembled on individual CPUs for unbinding (0.156691 sec, (presently allocated=4253.88 MB)
unbinding of independent ones took 2.36603 sec
particles have returned to their original processor (0.224692 sec, presently allocated 4253.88 MB)

number of subhalo candidates that can be done independently=10.
(Largest size is 60708, finding them took 0.539272 sec)
particles are marked (took 11.8576)
independent subhalos are assembled on individual CPUs for unbinding (0.148 sec, (presently allocated=4253.88 MB)
unbinding of independent ones took 1.50061 sec
particles have returned to their original processor (0.216369 sec, presently allocated 4253.88 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 5275, finding them took 0.457538 sec)
particles are marked (took 10.4341)
independent subhalos are assembled on individual CPUs for unbinding (0.142997 sec, (presently allocated=4253.88 MB)
unbinding of independent ones took 0.0864499 sec
particles have returned to their original processor (0.206682 sec, presently allocated 4253.88 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 12071, finding them took 0.443086 sec)
particles are marked (took 10.4808)
independent subhalos are assembled on individual CPUs for unbinding (0.144754 sec, (presently allocated=4253.88 MB)
unbinding of independent ones took 0.253221 sec
particles have returned to their original processor (0.209845 sec, presently allocated 4253.88 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 44999, finding them took 0.444213 sec)
particles are marked (took 10.945)
independent subhalos are assembled on individual CPUs for unbinding (0.150751 sec, (presently allocated=4253.88 MB)
unbinding of independent ones took 0.882505 sec
particles have returned to their original processor (0.220686 sec, presently allocated 4253.88 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 4890098, finding them took 0.483759 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=4890098 ... maximum alloacted 4253.95 MB
took 80.9049 sec

the collective unbinding of remaining halos took 90.7952 sec

found 1702 bound substructures in FoF group of length 4890098
determination of parent subhalo took 0.031343 sec (presently allocated 4253.95 MB)
determining substructure properties took 94.0199 sec (presently allocated 4253.95 MB)

collectively doing halo 5, 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)
Before=143193
After=166553
NTopleaves= 145734  NTopnodes=166553 (space for 244687)
gravity work-load balance=1.00037   memory-balance=1.00037   SPH work-load balance=0
iter=0 exchange of 0003432254 particles (ret=0)
domain decomposition done. (took 0.893848 sec)
Freed 3.57669 MByte in top-level domain structure
coldomain_Decomposition() took 1.30953 sec  (presently allocated=4252.8 MB)
force_treebuild() took 1.78051 sec (presently allocated=4252.8 MB)
Start find_linkngb (13450 particles on task=0)
find linkngb iteration 1: need to repeat for 0003433496 particles. (took 0.243441 sec)
find linkngb iteration 2: need to repeat for 0003364358 particles. (took 0.159854 sec)
find linkngb iteration 3: need to repeat for 0003226715 particles. (took 0.111365 sec)
find linkngb iteration 4: need to repeat for 0002888014 particles. (took 0.125423 sec)
find linkngb iteration 5: need to repeat for 0002424209 particles. (took 0.108525 sec)
find linkngb iteration 6: need to repeat for 0001766821 particles. (took 0.091146 sec)
find linkngb iteration 7: need to repeat for 0001115902 particles. (took 0.0675309 sec)
find linkngb iteration 8: need to repeat for 0000637716 particles. (took 0.0458491 sec)
find linkngb iteration 9: need to repeat for 0000342396 particles. (took 0.029599 sec)
find linkngb iteration 10: need to repeat for 0000177920 particles. (took 0.0193889 sec)
find linkngb iteration 11: need to repeat for 0000090688 particles. (took 0.0133421 sec)
find linkngb iteration 12: need to repeat for 0000019862 particles. (took 0.00988698 sec)
find linkngb iteration 13: need to repeat for 0000000692 particles. (took 0.00556302 sec)
find linkngb iteration 14: need to repeat for 0000000242 particles. (took 0.000537872 sec)
find linkngb iteration 15: need to repeat for 0000000099 particles. (took 0.000387907 sec)
find linkngb iteration 16: need to repeat for 0000000030 particles. (took 0.000334978 sec)
find linkngb iteration 17: need to repeat for 0000000006 particles. (took 0.000313044 sec)
find linkngb iteration 18: need to repeat for 0000000002 particles. (took 0.000314951 sec)
find linkngb iteration 19: need to repeat for 0000000001 particles. (took 0.000302076 sec)
find_linkngb() took 1.03393 sec
Start finding nearest two (13450 particles on task=0)
find_nearesttwo() took 0.22936 sec (presently allocated=4253.82 MB)
parallel sort of densities done. took 0.047204 sec
building distributed linked list. (presently allocated 4253.69 MB)
identification of primary candidates took 87.1635 sec
adding background as candidate took 0.158491 sec
establishing of rank order took 27.4529 sec  (p=3445781, grouplen=3445781) presently allocated 4253.69 MB

total number of subhalo candidates=14549

number of subhalo candidates that can be done independently=13095.
(Largest size is 3200, finding them took 0.00404191 sec)
particles are marked (took 17.9635)
independent subhalos are assembled on individual CPUs for unbinding (0.152411 sec, (presently allocated=4253.69 MB)
unbinding of independent ones took 0.10781 sec
particles have returned to their original processor (0.215989 sec, presently allocated 4253.69 MB)

number of subhalo candidates that can be done independently=1360.
(Largest size is 10440, finding them took 0.907333 sec)
particles are marked (took 11.8257)
independent subhalos are assembled on individual CPUs for unbinding (0.153644 sec, (presently allocated=4253.69 MB)
unbinding of independent ones took 0.269177 sec
particles have returned to their original processor (0.22008 sec, presently allocated 4253.69 MB)

number of subhalo candidates that can be done independently=84.
(Largest size is 66047, finding them took 1.06549 sec)
particles are marked (took 10.6426)
independent subhalos are assembled on individual CPUs for unbinding (0.156049 sec, (presently allocated=4253.69 MB)
unbinding of independent ones took 1.56714 sec
particles have returned to their original processor (0.227324 sec, presently allocated 4253.69 MB)

number of subhalo candidates that can be done independently=8.
(Largest size is 114273, finding them took 0.889903 sec)
particles are marked (took 10.5605)
independent subhalos are assembled on individual CPUs for unbinding (0.173132 sec, (presently allocated=4253.69 MB)
unbinding of independent ones took 3.40137 sec
particles have returned to their original processor (0.251284 sec, presently allocated 4253.69 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 839, finding them took 0.45822 sec)
particles are marked (took 6.9175)
independent subhalos are assembled on individual CPUs for unbinding (0.141664 sec, (presently allocated=4253.69 MB)
unbinding of independent ones took 0.00832701 sec
particles have returned to their original processor (0.205623 sec, presently allocated 4253.69 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 3445781, finding them took 0.417489 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=3445781 ... maximum alloacted 4253.74 MB
took 58.043 sec

the collective unbinding of remaining halos took 64.5704 sec

found 1291 bound substructures in FoF group of length 3445781
determination of parent subhalo took 0.027446 sec (presently allocated 4253.74 MB)
determining substructure properties took 70.529 sec (presently allocated 4253.74 MB)

collectively doing halo 6, 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)
Before=143793
After=165673
NTopleaves= 144964  NTopnodes=165673 (space for 244687)
gravity work-load balance=1.00045   memory-balance=1.00045   SPH work-load balance=0
iter=0 exchange of 0002828906 particles (ret=0)
domain decomposition done. (took 0.874136 sec)
Freed 3.61697 MByte in top-level domain structure
coldomain_Decomposition() took 1.28894 sec  (presently allocated=4252.6 MB)
force_treebuild() took 1.7584 sec (presently allocated=4252.6 MB)
Start find_linkngb (11054 particles on task=0)
find linkngb iteration 1: need to repeat for 0002833257 particles. (took 0.192736 sec)
find linkngb iteration 2: need to repeat for 0002785547 particles. (took 0.128734 sec)
find linkngb iteration 3: need to repeat for 0002673556 particles. (took 0.130035 sec)
find linkngb iteration 4: need to repeat for 0002399129 particles. (took 0.147317 sec)
find linkngb iteration 5: need to repeat for 0002014041 particles. (took 0.0881591 sec)
find linkngb iteration 6: need to repeat for 0001468056 particles. (took 0.075233 sec)
find linkngb iteration 7: need to repeat for 0000928037 particles. (took 0.055835 sec)
find linkngb iteration 8: need to repeat for 0000529646 particles. (took 0.0383449 sec)
find linkngb iteration 9: need to repeat for 0000284801 particles. (took 0.0253241 sec)
find linkngb iteration 10: need to repeat for 0000148390 particles. (took 0.0168462 sec)
find linkngb iteration 11: need to repeat for 0000075518 particles. (took 0.012033 sec)
find linkngb iteration 12: need to repeat for 0000016609 particles. (took 0.00918198 sec)
find linkngb iteration 13: need to repeat for 0000000778 particles. (took 0.00511909 sec)
find linkngb iteration 14: need to repeat for 0000000310 particles. (took 0.000519991 sec)
find linkngb iteration 15: need to repeat for 0000000126 particles. (took 0.000380039 sec)
find linkngb iteration 16: need to repeat for 0000000053 particles. (took 0.000333071 sec)
find linkngb iteration 17: need to repeat for 0000000016 particles. (took 0.00030899 sec)
find linkngb iteration 18: need to repeat for 0000000008 particles. (took 0.000299931 sec)
find linkngb iteration 19: need to repeat for 0000000003 particles. (took 0.000296831 sec)
find linkngb iteration 20: need to repeat for 0000000001 particles. (took 0.000298023 sec)
find_linkngb() took 0.928116 sec
Start finding nearest two (11054 particles on task=0)
find_nearesttwo() took 0.168607 sec (presently allocated=4253.44 MB)
parallel sort of densities done. took 0.038573 sec
building distributed linked list. (presently allocated 4253.33 MB)
identification of primary candidates took 72.6659 sec
adding background as candidate took 0.161871 sec
establishing of rank order took 22.6399 sec  (p=2840074, grouplen=2840074) presently allocated 4253.33 MB

total number of subhalo candidates=11860

number of subhalo candidates that can be done independently=10768.
(Largest size is 6233, finding them took 0.00348282 sec)
particles are marked (took 14.687)
independent subhalos are assembled on individual CPUs for unbinding (0.150992 sec, (presently allocated=4253.33 MB)
unbinding of independent ones took 0.11884 sec
particles have returned to their original processor (0.214364 sec, presently allocated 4253.33 MB)

number of subhalo candidates that can be done independently=1014.
(Largest size is 12423, finding them took 0.903416 sec)
particles are marked (took 8.8534)
independent subhalos are assembled on individual CPUs for unbinding (0.149562 sec, (presently allocated=4253.33 MB)
unbinding of independent ones took 0.366214 sec
particles have returned to their original processor (0.214613 sec, presently allocated 4253.33 MB)

number of subhalo candidates that can be done independently=69.
(Largest size is 91364, finding them took 0.936453 sec)
particles are marked (took 9.61103)
independent subhalos are assembled on individual CPUs for unbinding (0.163993 sec, (presently allocated=4253.33 MB)
unbinding of independent ones took 4.49569 sec
particles have returned to their original processor (0.244065 sec, presently allocated 4253.33 MB)

number of subhalo candidates that can be done independently=6.
(Largest size is 43639, finding them took 0.456799 sec)
particles are marked (took 6.84195)
independent subhalos are assembled on individual CPUs for unbinding (0.15295 sec, (presently allocated=4253.33 MB)
unbinding of independent ones took 1.27539 sec
particles have returned to their original processor (0.221406 sec, presently allocated 4253.33 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 166158, finding them took 0.453722 sec)
particles are marked (took 6.43106)
independent subhalos are assembled on individual CPUs for unbinding (0.153341 sec, (presently allocated=4253.33 MB)
unbinding of independent ones took 0.822961 sec
particles have returned to their original processor (0.229542 sec, presently allocated 4253.33 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 166158, finding them took 0.451665 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=166158 ... maximum alloacted 4253.38 MB
took 3.51551 sec
collective unbinding of nr=1 (2) of length=2840074 ... maximum alloacted 4253.38 MB
took 47.8714 sec

the collective unbinding of remaining halos took 56.6624 sec

found 1025 bound substructures in FoF group of length 2840074
determination of parent subhalo took 0.0328681 sec (presently allocated 4253.38 MB)
determining substructure properties took 58.3778 sec (presently allocated 4253.38 MB)

collectively doing halo 7, 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)
Before=142809
After=165297
NTopleaves= 144635  NTopnodes=165297 (space for 244687)
gravity work-load balance=1.00037   memory-balance=1.00037   SPH work-load balance=0
iter=0 exchange of 0002799881 particles (ret=0)
domain decomposition done. (took 0.87459 sec)
Freed 3.63419 MByte in top-level domain structure
coldomain_Decomposition() took 1.29055 sec  (presently allocated=4252.52 MB)
force_treebuild() took 1.78645 sec (presently allocated=4252.52 MB)
Start find_linkngb (10991 particles on task=0)
find linkngb iteration 1: need to repeat for 0002806572 particles. (took 0.193166 sec)
find linkngb iteration 2: need to repeat for 0002760446 particles. (took 0.127753 sec)
find linkngb iteration 3: need to repeat for 0002649559 particles. (took 0.091291 sec)
find linkngb iteration 4: need to repeat for 0002377989 particles. (took 0.100968 sec)
find linkngb iteration 5: need to repeat for 0001997912 particles. (took 0.0877578 sec)
find linkngb iteration 6: need to repeat for 0001457808 particles. (took 0.0750358 sec)
find linkngb iteration 7: need to repeat for 0000920501 particles. (took 0.0558581 sec)
find linkngb iteration 8: need to repeat for 0000525655 particles. (took 0.038404 sec)
find linkngb iteration 9: need to repeat for 0000282952 particles. (took 0.0252302 sec)
find linkngb iteration 10: need to repeat for 0000147113 particles. (took 0.0169361 sec)
find linkngb iteration 11: need to repeat for 0000074830 particles. (took 0.0119109 sec)
find linkngb iteration 12: need to repeat for 0000016329 particles. (took 0.00907993 sec)
find linkngb iteration 13: need to repeat for 0000000737 particles. (took 0.00507998 sec)
find linkngb iteration 14: need to repeat for 0000000265 particles. (took 0.000478029 sec)
find linkngb iteration 15: need to repeat for 0000000124 particles. (took 0.000382185 sec)
find linkngb iteration 16: need to repeat for 0000000061 particles. (took 0.000335932 sec)
find linkngb iteration 17: need to repeat for 0000000024 particles. (took 0.000309944 sec)
find linkngb iteration 18: need to repeat for 0000000007 particles. (took 0.000295877 sec)
find linkngb iteration 19: need to repeat for 0000000001 particles. (took 0.000301123 sec)
find_linkngb() took 0.841346 sec
Start finding nearest two (10991 particles on task=0)
find_nearesttwo() took 0.165846 sec (presently allocated=4253.35 MB)
parallel sort of densities done. took 0.0418501 sec
building distributed linked list. (presently allocated 4253.24 MB)
identification of primary candidates took 70.796 sec
adding background as candidate took 0.157381 sec
establishing of rank order took 22.149 sec  (p=2812923, grouplen=2812923) presently allocated 4253.24 MB

total number of subhalo candidates=12336

number of subhalo candidates that can be done independently=11125.
(Largest size is 4330, finding them took 0.00398421 sec)
particles are marked (took 15.1943)
independent subhalos are assembled on individual CPUs for unbinding (0.149968 sec, (presently allocated=4253.24 MB)
unbinding of independent ones took 0.0766919 sec
particles have returned to their original processor (0.214699 sec, presently allocated 4253.24 MB)

number of subhalo candidates that can be done independently=1122.
(Largest size is 50126, finding them took 0.913898 sec)
particles are marked (took 10.7556)
independent subhalos are assembled on individual CPUs for unbinding (0.154057 sec, (presently allocated=4253.24 MB)
unbinding of independent ones took 1.13519 sec
particles have returned to their original processor (0.224774 sec, presently allocated 4253.24 MB)

number of subhalo candidates that can be done independently=81.
(Largest size is 32881, finding them took 0.934104 sec)
particles are marked (took 8.52704)
independent subhalos are assembled on individual CPUs for unbinding (0.160594 sec, (presently allocated=4253.24 MB)
unbinding of independent ones took 0.86818 sec
particles have returned to their original processor (0.230992 sec, presently allocated 4253.24 MB)

number of subhalo candidates that can be done independently=6.
(Largest size is 8106, finding them took 0.465102 sec)
particles are marked (took 6.11603)
independent subhalos are assembled on individual CPUs for unbinding (0.146588 sec, (presently allocated=4253.24 MB)
unbinding of independent ones took 0.116129 sec
particles have returned to their original processor (0.214107 sec, presently allocated 4253.24 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 10282, finding them took 0.459149 sec)
particles are marked (took 5.97403)
independent subhalos are assembled on individual CPUs for unbinding (0.144788 sec, (presently allocated=4253.24 MB)
unbinding of independent ones took 0.160076 sec
particles have returned to their original processor (0.211195 sec, presently allocated 4253.24 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 2812923, finding them took 0.479833 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=2812923 ... maximum alloacted 4253.29 MB
took 47.2818 sec

the collective unbinding of remaining halos took 52.8546 sec

found 1066 bound substructures in FoF group of length 2812923
determination of parent subhalo took 0.0277989 sec (presently allocated 4253.29 MB)
determining substructure properties took 56.1838 sec (presently allocated 4253.29 MB)
processing of collective halos took 5058.51 sec
sort of local particles()() took 0.539451 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 288.929 sec

Task 255: testing particles ...
Task 218: testing particles ...
Task 153: testing particles ...
Task 186: testing particles ...
Task 164: testing particles ...
Task 254: testing particles ...
Task 174: testing particles ...
Task 184: testing particles ...
Task 196: testing particles ...
Task 250: testing particles ...
Task 162: testing particles ...
Task 239: testing particles ...
Task 253: testing particles ...
Task 228: testing particles ...
Task 229: testing particles ...
Task 252: testing particles ...
Task 141: testing particles ...
Task 107: testing particles ...
Task 197: testing particles ...
Task 240: testing particles ...
Task 129: testing particles ...
Task 251: testing particles ...
Task 195: testing particles ...
Task 217: testing particles ...
Task 152: testing particles ...
Task 207: testing particles ...
Task 163: testing particles ...
Task 219: testing particles ...
Task 206: testing particles ...
Task 175: testing particles ...
Task 241: testing particles ...
Task 118: testing particles ...
Task 173: testing particles ...
Task 97: testing particles ...
Task 86: testing particles ...
Task 142: testing particles ...
Task 208: testing particles ...
Task 224: testing particles ...
Task 76: testing particles ...
Task 4: testing particles ...
Task 230: testing particles ...
Task 185: testing particles ...
Task 87: testing particles ...
Task 108: testing particles ...
Task 140: testing particles ...
Task 109: testing particles ...
Task 120: testing particles ...
Task 119: testing particles ...
Task 131: testing particles ...
Task 130: testing particles ...
Task 85: testing particles ...
Task 98: testing particles ...
Task 151: testing particles ...
Task 63: testing particles ...
Task 96: testing particles ...
Task 123: testing particles ...
Task 205: testing particles ...
Task 234: testing particles ...
Task 74: testing particles ...
Task 6: testing particles ...
Task 212: testing particles ...
unsorting of local particles()() took 0.46254 sec
Task 0: testing particles ...
Task 201: testing particles ...
Task 188: testing particles ...
Task 249: testing particles ...
Task 233: testing particles ...
Task 53: testing particles ...
Task 177: testing particles ...
Task 54: testing particles ...
Task 209: testing particles ...
Task 2: testing particles ...
Task 199: testing particles ...
Task 245: testing particles ...
Task 231: testing particles ...
Task 75: testing particles ...
Task 65: testing particles ...
Task 238: testing particles ...
Task 232: testing particles ...
Task 93: testing particles ...
Task 244: testing particles ...
Task 166: testing particles ...
Task 52: testing particles ...
Task 170: testing particles ...
Task 225: testing particles ...
Task 64: testing particles ...
Task 216: testing particles ...
Task 1: testing particles ...
Task 171: testing particles ...
Task 172: testing particles ...
Task 157: testing particles ...
Task 137: testing particles ...
Task 227: testing particles ...
Task 236: testing particles ...
Task 182: testing particles ...
Task 243: testing particles ...
Task 124: testing particles ...
Task 147: testing particles ...
Task 194: testing particles ...
Task 222: testing particles ...
Task 178: testing particles ...
Task 155: testing particles ...
Task 138: testing particles ...
Task 198: testing particles ...
Task 169: testing particles ...
Task 145: testing particles ...
Task 154: testing particles ...
Task 3: testing particles ...
Task 213: testing particles ...
Task 235: testing particles ...
Task 187: testing particles ...
Task 180: testing particles ...
Task 110: testing particles ...
Task 136: testing particles ...
Task 111: testing particles ...
Task 223: testing particles ...
Task 143: testing particles ...
Task 192: testing particles ...
Task 68: testing particles ...
Task 43: testing particles ...
Task 104: testing particles ...
Task 92: testing particles ...
Task 139: testing particles ...
Task 80: testing particles ...
Task 161: testing particles ...
Task 117: testing particles ...
Task 248: testing particles ...
Task 202: testing particles ...
Task 5: testing particles ...
Task 191: testing particles ...
Task 149: testing particles ...
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subfind_exchange() (for return to original CPU)  took 3.215 sec
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)
Before=186233
After=204937
NTopleaves= 179320  NTopnodes=204937 (space for 244687)
gravity work-load balance=1.00044   memory-balance=1.00044   SPH work-load balance=0
iter=0 exchange of 0273226712 particles (ret=0)
domain decomposition done. (took 3.54636 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.81961 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000147205 particles. (took 0.029026 sec)
SO iteration 2: need to repeat for 0000147205 particles. (took 0.0208061 sec)
SO iteration 3: need to repeat for 0000147205 particles. (took 0.020457 sec)
SO iteration 4: need to repeat for 0000147205 particles. (took 0.0210218 sec)
SO iteration 5: need to repeat for 0000147205 particles. (took 0.0215821 sec)
SO iteration 6: need to repeat for 0000147205 particles. (took 0.0228491 sec)
SO iteration 7: need to repeat for 0000147205 particles. (took 0.024193 sec)
SO iteration 8: need to repeat for 0000147205 particles. (took 0.021311 sec)
SO iteration 9: need to repeat for 0000147205 particles. (took 0.0213251 sec)
SO iteration 10: need to repeat for 0000147205 particles. (took 0.0213442 sec)
SO iteration 11: need to repeat for 0000147205 particles. (took 0.0588951 sec)
SO iteration 12: need to repeat for 0000147205 particles. (took 0.034194 sec)
SO iteration 13: need to repeat for 0000147205 particles. (took 0.021683 sec)
SO iteration 14: need to repeat for 0000147205 particles. (took 0.0610821 sec)
SO iteration 15: need to repeat for 0000146631 particles. (took 0.044826 sec)
SO iteration 16: need to repeat for 0000000344 particles. (took 0.0549932 sec)
SO iteration 17: need to repeat for 0000000037 particles. (took 0.00154495 sec)
SO iteration 1: need to repeat for 0000147205 particles. (took 0.0220108 sec)
SO iteration 2: need to repeat for 0000147205 particles. (took 0.0206771 sec)
SO iteration 3: need to repeat for 0000147205 particles. (took 0.0202291 sec)
SO iteration 4: need to repeat for 0000147205 particles. (took 0.019532 sec)
SO iteration 5: need to repeat for 0000147205 particles. (took 0.0192039 sec)
SO iteration 6: need to repeat for 0000147205 particles. (took 0.0190451 sec)
SO iteration 7: need to repeat for 0000147205 particles. (took 0.0189581 sec)
SO iteration 8: need to repeat for 0000147205 particles. (took 0.0191901 sec)
SO iteration 9: need to repeat for 0000147205 particles. (took 0.019146 sec)
SO iteration 10: need to repeat for 0000147205 particles. (took 0.019315 sec)
SO iteration 11: need to repeat for 0000147205 particles. (took 0.0193188 sec)
SO iteration 12: need to repeat for 0000147205 particles. (took 0.019222 sec)
SO iteration 13: need to repeat for 0000147205 particles. (took 0.0195541 sec)
SO iteration 14: need to repeat for 0000147205 particles. (took 0.019562 sec)
SO iteration 15: need to repeat for 0000147087 particles. (took 0.0195589 sec)
SO iteration 16: need to repeat for 0000013379 particles. (took 0.019182 sec)
SO iteration 17: need to repeat for 0000000245 particles. (took 0.00551486 sec)
SO iteration 18: need to repeat for 0000000041 particles. (took 0.000846148 sec)
SO iteration 1: need to repeat for 0000147205 particles. (took 0.0215039 sec)
SO iteration 2: need to repeat for 0000147205 particles. (took 0.0184739 sec)
SO iteration 3: need to repeat for 0000147205 particles. (took 0.0171099 sec)
SO iteration 4: need to repeat for 0000147205 particles. (took 0.0176609 sec)
SO iteration 5: need to repeat for 0000147205 particles. (took 0.0174091 sec)
SO iteration 6: need to repeat for 0000147205 particles. (took 0.0176239 sec)
SO iteration 7: need to repeat for 0000147205 particles. (took 0.0177939 sec)
SO iteration 8: need to repeat for 0000147205 particles. (took 0.017761 sec)
SO iteration 9: need to repeat for 0000147205 particles. (took 0.017875 sec)
SO iteration 10: need to repeat for 0000147205 particles. (took 0.0175641 sec)
SO iteration 11: need to repeat for 0000147205 particles. (took 0.0176449 sec)
SO iteration 12: need to repeat for 0000147205 particles. (took 0.0177071 sec)
SO iteration 13: need to repeat for 0000147205 particles. (took 0.017998 sec)
SO iteration 14: need to repeat for 0000147205 particles. (took 0.0174041 sec)
SO iteration 15: need to repeat for 0000147189 particles. (took 0.0173161 sec)
SO iteration 16: need to repeat for 0000147162 particles. (took 0.0173268 sec)
SO iteration 17: need to repeat for 0000017550 particles. (took 0.0173411 sec)
SO iteration 18: need to repeat for 0000000417 particles. (took 0.00535893 sec)
SO iteration 19: need to repeat for 0000000077 particles. (took 0.000887156 sec)
SO iteration 20: need to repeat for 0000000001 particles. (took 0.000604153 sec)
SO iteration 1: need to repeat for 0000147205 particles. (took 0.0212371 sec)
SO iteration 2: need to repeat for 0000147205 particles. (took 0.0183501 sec)
SO iteration 3: need to repeat for 0000147205 particles. (took 0.0192759 sec)
SO iteration 4: need to repeat for 0000147205 particles. (took 0.019866 sec)
SO iteration 5: need to repeat for 0000147205 particles. (took 0.0198331 sec)
SO iteration 6: need to repeat for 0000147205 particles. (took 0.0198338 sec)
SO iteration 7: need to repeat for 0000147205 particles. (took 0.019732 sec)
SO iteration 8: need to repeat for 0000147205 particles. (took 0.019732 sec)
SO iteration 9: need to repeat for 0000147205 particles. (took 0.019614 sec)
SO iteration 10: need to repeat for 0000147205 particles. (took 0.019799 sec)
SO iteration 11: need to repeat for 0000147205 particles. (took 0.0196588 sec)
SO iteration 12: need to repeat for 0000147205 particles. (took 0.020026 sec)
SO iteration 13: need to repeat for 0000147205 particles. (took 0.0199671 sec)
SO iteration 14: need to repeat for 0000147205 particles. (took 0.019691 sec)
SO iteration 15: need to repeat for 0000146967 particles. (took 0.0201001 sec)
SO iteration 16: need to repeat for 0000002531 particles. (took 0.0192311 sec)
SO iteration 17: need to repeat for 0000000108 particles. (took 0.00163507 sec)
SO iteration 18: need to repeat for 0000000007 particles. (took 0.000674009 sec)
SO iteration 1: need to repeat for 0000147205 particles. (took 0.022366 sec)
SO iteration 2: need to repeat for 0000147205 particles. (took 0.0187252 sec)
SO iteration 3: need to repeat for 0000147205 particles. (took 0.0194268 sec)
SO iteration 4: need to repeat for 0000147205 particles. (took 0.0193911 sec)
SO iteration 5: need to repeat for 0000147205 particles. (took 0.019134 sec)
SO iteration 6: need to repeat for 0000147205 particles. (took 0.019206 sec)
SO iteration 7: need to repeat for 0000147205 particles. (took 0.0188031 sec)
SO iteration 8: need to repeat for 0000147205 particles. (took 0.0188639 sec)
SO iteration 9: need to repeat for 0000147205 particles. (took 0.01878 sec)
SO iteration 10: need to repeat for 0000147205 particles. (took 0.0187812 sec)
SO iteration 11: need to repeat for 0000147205 particles. (took 0.018683 sec)
SO iteration 12: need to repeat for 0000147205 particles. (took 0.0187912 sec)
SO iteration 13: need to repeat for 0000147205 particles. (took 0.018888 sec)
SO iteration 14: need to repeat for 0000147205 particles. (took 0.0186691 sec)
SO iteration 15: need to repeat for 0000147124 particles. (took 0.018677 sec)
SO iteration 16: need to repeat for 0000047194 particles. (took 0.018759 sec)
SO iteration 17: need to repeat for 0000000405 particles. (took 0.00928688 sec)
SO iteration 18: need to repeat for 0000000074 particles. (took 0.000928879 sec)
SO iteration 19: need to repeat for 0000000003 particles. (took 0.000598907 sec)
SO iteration 1: need to repeat for 0000147205 particles. (took 0.021286 sec)
SO iteration 2: need to repeat for 0000147205 particles. (took 0.0183358 sec)
SO iteration 3: need to repeat for 0000147205 particles. (took 0.0173011 sec)
SO iteration 4: need to repeat for 0000147205 particles. (took 0.0195901 sec)
SO iteration 5: need to repeat for 0000147205 particles. (took 0.017854 sec)
SO iteration 6: need to repeat for 0000147205 particles. (took 0.0174851 sec)
SO iteration 7: need to repeat for 0000147205 particles. (took 0.0174439 sec)
SO iteration 8: need to repeat for 0000147205 particles. (took 0.0175261 sec)
SO iteration 9: need to repeat for 0000147205 particles. (took 0.0174479 sec)
SO iteration 10: need to repeat for 0000147205 particles. (took 0.0172629 sec)
SO iteration 11: need to repeat for 0000147205 particles. (took 0.0173569 sec)
SO iteration 12: need to repeat for 0000147205 particles. (took 0.017379 sec)
SO iteration 13: need to repeat for 0000147205 particles. (took 0.0172 sec)
SO iteration 14: need to repeat for 0000147205 particles. (took 0.0175369 sec)
SO iteration 15: need to repeat for 0000147181 particles. (took 0.0175211 sec)
SO iteration 16: need to repeat for 0000147107 particles. (took 0.0170851 sec)
SO iteration 17: need to repeat for 0000004355 particles. (took 0.017355 sec)
SO iteration 18: need to repeat for 0000000250 particles. (took 0.00229311 sec)
SO iteration 19: need to repeat for 0000000033 particles. (took 0.000714064 sec)
SO iteration 1: need to repeat for 0000147205 particles. (took 0.0214238 sec)
SO iteration 2: need to repeat for 0000147205 particles. (took 0.018254 sec)
SO iteration 3: need to repeat for 0000147205 particles. (took 0.0170958 sec)
SO iteration 4: need to repeat for 0000147205 particles. (took 0.0150082 sec)
SO iteration 5: need to repeat for 0000147205 particles. (took 0.015841 sec)
SO iteration 6: need to repeat for 0000147205 particles. (took 0.0187531 sec)
SO iteration 7: need to repeat for 0000147205 particles. (took 0.0159781 sec)
SO iteration 8: need to repeat for 0000147205 particles. (took 0.017854 sec)
SO iteration 9: need to repeat for 0000147205 particles. (took 0.0160379 sec)
SO iteration 10: need to repeat for 0000147205 particles. (took 0.0160019 sec)
SO iteration 11: need to repeat for 0000147205 particles. (took 0.0160449 sec)
SO iteration 12: need to repeat for 0000147205 particles. (took 0.015918 sec)
SO iteration 13: need to repeat for 0000147205 particles. (took 0.015991 sec)
SO iteration 14: need to repeat for 0000147205 particles. (took 0.016084 sec)
SO iteration 15: need to repeat for 0000147201 particles. (took 0.0159631 sec)
SO iteration 16: need to repeat for 0000147197 particles. (took 0.0161152 sec)
SO iteration 17: need to repeat for 0000147174 particles. (took 0.0160751 sec)
SO iteration 18: need to repeat for 0000010768 particles. (took 0.0160642 sec)
SO iteration 19: need to repeat for 0000000336 particles. (took 0.00318003 sec)
SO iteration 20: need to repeat for 0000000041 particles. (took 0.000697851 sec)
SO iteration 21: need to repeat for 0000000001 particles. (took 0.000571012 sec)
determining spherical overdensity masses took 2.3872 sec
finding spherical overdensity particles took 0.48607 sec
determining contamination of halos took 0.226382 sec
Global sort of Groups took 0.092222 sec
Global sort of SubGroups took 0.310827 sec
Global sort of IDs took 0.487338 sec
Writing block 0 (GLEN), n=715, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2860d
Writing block 1 (GOFF), n=715, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2860d
Writing block 2 (MTOT), n=715, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2860d
Writing block 3 (GPOS), n=715, ptype=0, dtype=1, ndim=3, bpb=4 bytes=8580d
Writing block 4 (MMEA), n=715, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2860d
Writing block 5 (RMEA), n=715, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2860d
Writing block 6 (MCRI), n=715, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2860d
Writing block 7 (RCRI), n=715, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2860d
Writing block 8 (MTOP), n=715, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2860d
Writing block 9 (RTOP), n=715, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2860d
Writing block 17 (NCON), n=715, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2860d
Writing block 18 (MCON), n=715, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2860d
Writing block 22 (NSUB), n=715, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2860d
Writing block 23 (FSUB), n=715, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2860d
Writing block 24 (SLEN), n=7838, ptype=1, dtype=0, ndim=1, bpb=4 bytes=31352d
Writing block 25 (SOFF), n=7838, ptype=1, dtype=0, ndim=1, bpb=4 bytes=31352d
Writing block 27 (MSUB), n=7838, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 28 (SPOS), n=7838, ptype=1, dtype=1, ndim=3, bpb=4 bytes=94056d
Writing block 29 (SVEL), n=7838, ptype=1, dtype=1, ndim=3, bpb=4 bytes=94056d
Writing block 30 (SCM ), n=7838, ptype=1, dtype=1, ndim=3, bpb=4 bytes=94056d
Writing block 33 (VMAX), n=7838, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 34 (RMAX), n=7838, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 35 (RHMS), n=7838, ptype=1, dtype=1, ndim=6, bpb=4 bytes=188112d
Writing block 36 (MTRH), n=7838, ptype=1, dtype=1, ndim=6, bpb=4 bytes=188112d
Writing block 37 (MBID), n=7838, ptype=1, dtype=2, ndim=1, bpb=8 bytes=62704d
Writing block 38 (GRNR), n=7838, ptype=1, dtype=0, ndim=1, bpb=4 bytes=31352d
Writing block 39 (SUBN), n=7838, ptype=1, dtype=0, ndim=1, bpb=4 bytes=31352d
Writing block 40 (SMST), n=7838, ptype=1, dtype=1, ndim=6, bpb=4 bytes=188112d
Writing block 53 (PID ), n=620870, ptype=2, dtype=2, ndim=1, bpb=8 bytes=4966960d
Writing block 54 (SLEN), n=7838, ptype=1, dtype=0, ndim=6, bpb=4 bytes=188112d
Writing block 55 (STEN), n=7838, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 56 (SKEN), n=7838, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 57 (SUEN), n=7838, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 58 (SUIT), n=7838, ptype=1, dtype=1, ndim=9, bpb=4 bytes=282168d
Writing block 59 (BHMA), n=7838, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 60 (BHMD), n=7838, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 61 (SVD ), n=7838, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 62 (SVDH), n=7838, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 63 (HMPR), n=7838, ptype=1, dtype=1, ndim=6, bpb=4 bytes=188112d
Writing block 64 (SSFR), n=7838, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 65 (SSA ), n=7838, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 66 (SSBZ), n=7838, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 67 (SSIM), n=7838, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 68 (SSPI), n=7838, ptype=4, dtype=1, ndim=3, bpb=4 bytes=94056d
Writing block 69 (GSPI), n=7838, ptype=1, dtype=1, ndim=3, bpb=4 bytes=94056d
Writing block 70 (FSPI), n=7838, ptype=5, dtype=1, ndim=3, bpb=4 bytes=94056d
Writing block 71 (SFM ), n=7838, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 72 (SFMT), n=7838, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 73 (SFME), n=7838, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 74 (SFAE), n=7838, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 75 (SFKE), n=7838, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 76 (SFTE), n=7838, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 77 (SMWP), n=7838, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 78 (SMM ), n=7838, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 79 (SMMS), n=7838, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 80 (SFZ ), n=7838, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 81 (SFZS), n=7838, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 82 (SSIA), n=7838, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 83 (SIAS), n=7838, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 84 (SMET), n=7838, ptype=5, dtype=1, ndim=9, bpb=4 bytes=282168d
Writing block 85 (SMTS), n=7838, ptype=5, dtype=1, ndim=9, bpb=4 bytes=282168d
Writing block 86 (MF1 ), n=7838, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 87 (MeF1), n=7838, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 88 (MF  ), n=7838, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 89 (MeF2), n=7838, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 90 (MFA ), n=7838, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 91 (MeFA), n=7838, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 92 (NSPI), n=7838, ptype=6, dtype=1, ndim=3, bpb=4 bytes=94056d
Writing block 93 (NFM ), n=7838, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 94 (NFMT), n=7838, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 95 (NFME), n=7838, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 96 (NFAE), n=7838, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 97 (NFKE), n=7838, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 98 (NFTE), n=7838, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 99 (SMWP), n=7838, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 100 (SMM ), n=7838, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 101 (SMMS), n=7838, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 102 (SSIA), n=7838, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 103 (SIAS), n=7838, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 104 (SMET), n=7838, ptype=6, dtype=1, ndim=9, bpb=4 bytes=282168d
Writing block 105 (SMTS), n=7838, ptype=6, dtype=1, ndim=9, bpb=4 bytes=282168d
Writing block 106 (MF1 ), n=7838, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 107 (MeF1), n=7838, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 108 (MF2 ), n=7838, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 109 (MeF2), n=7838, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 110 (MFA ), n=7838, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 111 (MeFA), n=7838, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 112 (SM  ), n=7838, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 113 (SFKE), n=7838, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 114 (SFAE), n=7838, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 115 (SMWP), n=7838, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 116 (SMM ), n=7838, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 117 (SMMS), n=7838, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 118 (SSIA), n=7838, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 119 (SIAS), n=7838, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 120 (SMET), n=7838, ptype=4, dtype=1, ndim=9, bpb=4 bytes=282168d
Writing block 121 (SMTS), n=7838, ptype=4, dtype=1, ndim=9, bpb=4 bytes=282168d
Writing block 122 (MF1 ), n=7838, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 123 (MeF1), n=7838, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 124 (MF2 ), n=7838, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 125 (MeF2), n=7838, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 126 (MFA ), n=7838, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 127 (MeFA), n=7838, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31352d
Writing block 128 (MMe5), n=715, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2860d
Writing block 129 (RMe5), n=715, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2860d
Writing block 130 (MCr5), n=715, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2860d
Writing block 131 (RCr5), n=715, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2860d
Writing block 132 (MMe2), n=715, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2860d
Writing block 133 (RMe2), n=715, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2860d
Writing block 134 (MCr2), n=715, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2860d
Writing block 135 (RCr2), n=715, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2860d
Writing block 136 (MAPT), n=7838, ptype=7, dtype=1, ndim=60, bpb=4 bytes=1881120d
Writing block 137 (SAPT), n=7838, ptype=8, dtype=1, ndim=10, bpb=4 bytes=313520d
Writing block 138 (VAPT), n=7838, ptype=9, dtype=1, ndim=10, bpb=4 bytes=313520d
Writing block 139 (BEGY), n=620870, ptype=2, dtype=1, ndim=1, bpb=4 bytes=2483480d
Subgroup catalogues saved. took = 7.74648 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 6.548719e-01
 eagle_ph_key_ort: type= 2 timed by volker 4.646707e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.263401e-02
 eagle_ph_key_ort: type= 4 timed by volker 4.263401e-02
 eagle_ph_key_ort: type= 5 timed by volker 4.263401e-02
 eagle_ph_key_ort: timing parallel sort = 7.526329e-01
 eagle_fetch_elements: we are using 1408751622 bytes of memory, FreeBytes= 1760939528

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 3770.64 Mbyte (on task=0), Smallest = 1315.89 Mbyte, Average = 1358.85 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      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 2977 0   sort_index_data     24.5163    3770.6372  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1634648 number of bytes = 523087360

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 5113.94 Mbyte (on task=0), Smallest = 2658.73 Mbyte, Average = 2702.2 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 2977 0   sort_index_data     24.5163    3770.6372  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      6.2357    3776.8729  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      6.2357    3783.1086  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      6.2357    3789.3443  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    498.8550    4288.1992  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    498.8550    4787.0542  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    326.8839    5113.9381  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.118176e+00
 eagle_fetch_elements: we are using 1408751622 bytes of memory, FreeBytes= 1760939528
 eagle_fetch_elements: max_bytes= 504, max_elements= 1381129 number of bytes = 696089016
 eagle_ph_key_ort: timing parallel SphP exchange = 8.719921e-03
 eagle_fetch_elements: we are using 1408751622 bytes of memory, FreeBytes= 1760939528
 eagle_fetch_elements: max_bytes= 384, max_elements= 1806091 number of bytes = 693538944
 eagle_ph_key_ort: timing parallel MetP exchange = 4.251003e-04
 eagle_fetch_elements: we are using 1408751622 bytes of memory, FreeBytes= 1760939528
 eagle_fetch_elements: max_bytes= 256, max_elements= 2688457 number of bytes = 688244992
 eagle_ph_key_ort: timing parallel BHP exchange = 6.630421e-04
Sorting particle-data by peano-hilbert key took = 3.25932 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1408751622 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1634648 number of bytes= 523087360
 eagle_ph_restore: timing parallel P exchange = 2.020565e+00
 eagle_send_elements: we are using 1408751622 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1381129 number of bytes= 696089016
 eagle_ph_restore: timing parallel SphP exchange = 1.006699e-02
 eagle_send_elements: we are using 1408751622 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1806091 number of bytes= 693538944
 eagle_ph_restore: timing parallel MetP exchange = 3.401995e-03
 eagle_send_elements: we are using 1408751622 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 2688457 number of bytes= 688244992
 eagle_ph_restore: timing parallel BHP exchange = 3.798962e-03
Restoring original order after ph key sorting took = 2.05502 sec

finished writing particle file...

Finished with SUBFIND.  (total time=5508.41 sec)

Finished computing FoF groups.  (presently allocated=1202.97 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=180217
After=200625
NTopleaves= 175547  NTopnodes=200625 (space for 244687)
gravity work-load balance=1.00055   memory-balance=1.00055   SPH work-load balance=0
iter=0 exchange of 0273148188 particles (ret=0)
domain decomposition done. (took 3.55206 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.017 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


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 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


 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 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
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
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 80
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.
 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 112: endrun called with an error level of 124


task 128: endrun called with an error level of 124


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
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
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 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 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 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
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


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
task 208: 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 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 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
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 192
task 208: endrun called with an error level of 124


    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
 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
Finished FOF, total time doing fof/subfind = 5609.15 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 =   63013.57 Mb (on task=253), Smallest =   62734.39 Mb (on task=0), Average =   62810.15 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=88), Smallest =   64531.98 Mb (on task=121), Average =   64532.08 Mb
Committed_AS:	 Largest =    1797.68 Mb (on task=0), Smallest =    1518.50 Mb (on task=253), Average =    1721.93 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16358.93 Mb (on task=165), Smallest =   16262.80 Mb (on task=33), Average =   16337.63 Mb
AllocMem:	 Largest =    1797.68 Mb (on task=0), Smallest =    1518.50 Mb (on task=253), Average =    1721.93 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin052

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.N11':
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                         5450
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=3.66875 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 10.0345 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.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities 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...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities 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 3.41989 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 9.93986 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 7.69716 sec)
have done 0000446128 cross links (processed 0057385096, took 7.02185 sec)
have done 0000325349 cross links (processed 0048366805, took 6.43449 sec)
have done 0000229853 cross links (processed 0036445406, took 6.81948 sec)
have done 0000156758 cross links (processed 0027135679, took 5.50798 sec)
have done 0000104562 cross links (processed 0018911117, took 6.64828 sec)
have done 0000074146 cross links (processed 0012848163, took 6.47044 sec)
have done 0000053789 cross links (processed 0008431690, took 4.63702 sec)
have done 0000038871 cross links (processed 0004423402, took 5.27527 sec)
have done 0000026219 cross links (processed 0002086366, took 3.48961 sec)
have done 0000016352 cross links (processed 0001697610, took 0.583001 sec)
have done 0000013065 cross links (processed 0003038989, took 0.775145 sec)
have done 0000011332 cross links (processed 0002534710, took 4.08478 sec)
have done 0000007304 cross links (processed 0000596836, took 0.681746 sec)
have done 0000004316 cross links (processed 0000360234, took 0.42335 sec)
have done 0000002199 cross links (processed 0000132580, took 0.325424 sec)
have done 0000001156 cross links (processed 0000078562, took 0.423246 sec)
have done 0000000481 cross links (processed 0000006415, took 0.046113 sec)
have done 0000000203 cross links (processed 0000002578, took 0.0451791 sec)
have done 0000000079 cross links (processed 0000001181, took 0.0449491 sec)
have done 0000000023 cross links (processed 0000000401, took 0.0450518 sec)
have done 0000000007 cross links (processed 0000000083, took 0.044661 sec)
have done 0000000003 cross links (processed 0000000026, took 0.044647 sec)
have done 0000000002 cross links (processed 0000000012, took 0.0445659 sec)
have done 0000000001 cross links (processed 0000000005, took 0.0444698 sec)
have done 0000000000 cross links (processed 0000000002, took 0.047786 sec)
Local groups found.

group finding took = 77.7767 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 = 0.112151 sec
compiling local group data and catalogue took = 0.575459 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 = 0.080035 sec
start global sorting of group catalogues number 28
LargestGroup = 17486.756118; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0513129 sec
Group catalogues globally sorted. took = 0.751908 sec
starting saving of group catalogue number 28
data//groups_028_z000p036
Group catalogues number 28 saved. took = 2.50025 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.677378 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.268561 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.67426 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0193448949 particles. (took 20.1077 sec)
ngb iteration 2: need to repeat for 0149659989 particles. (took 9.71575 sec)
ngb iteration 3: need to repeat for 0131241542 particles. (took 7.00251 sec)
ngb iteration 4: need to repeat for 0119174482 particles. (took 5.71117 sec)
ngb iteration 5: need to repeat for 0106197576 particles. (took 4.97497 sec)
ngb iteration 6: need to repeat for 0088203238 particles. (took 4.43396 sec)
ngb iteration 7: need to repeat for 0066230539 particles. (took 3.74736 sec)
ngb iteration 8: need to repeat for 0045159114 particles. (took 2.95108 sec)
ngb iteration 9: need to repeat for 0028598230 particles. (took 2.15619 sec)
ngb iteration 10: need to repeat for 0017241480 particles. (took 1.48594 sec)
ngb iteration 11: need to repeat for 0010093716 particles. (took 0.970702 sec)
ngb iteration 12: need to repeat for 0005829271 particles. (took 0.605688 sec)
ngb iteration 13: need to repeat for 0003355776 particles. (took 0.378043 sec)
ngb iteration 14: need to repeat for 0001834301 particles. (took 0.24628 sec)
ngb iteration 15: need to repeat for 0000872944 particles. (took 0.162287 sec)
ngb iteration 16: need to repeat for 0000462485 particles. (took 0.100527 sec)
ngb iteration 17: need to repeat for 0000257649 particles. (took 0.0732348 sec)
ngb iteration 18: need to repeat for 0000147154 particles. (took 0.0603759 sec)
ngb iteration 19: need to repeat for 0000083930 particles. (took 0.0522151 sec)
ngb iteration 20: need to repeat for 0000046806 particles. (took 0.0477669 sec)
ngb iteration 21: need to repeat for 0000025106 particles. (took 0.0449309 sec)
ngb iteration 22: need to repeat for 0000012999 particles. (took 0.0427489 sec)
ngb iteration 23: need to repeat for 0000006456 particles. (took 0.04175 sec)
ngb iteration 24: need to repeat for 0000003029 particles. (took 0.0407519 sec)
ngb iteration 25: need to repeat for 0000001374 particles. (took 0.0401549 sec)
ngb iteration 26: need to repeat for 0000000573 particles. (took 0.0399549 sec)
ngb iteration 27: need to repeat for 0000000224 particles. (took 0.039762 sec)
ngb iteration 28: need to repeat for 0000000079 particles. (took 0.0397599 sec)
ngb iteration 29: need to repeat for 0000000025 particles. (took 0.0396218 sec)
ngb iteration 30: need to repeat for 0000000007 particles. (took 0.03971 sec)
ngb iteration 31: need to repeat for 0000000001 particles. (took 0.0396471 sec)
final operations ... 
density and smoothing length for species 1 took 65.7932 sec
Tree construction.
tree build took 0.676547 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.268186 sec
Tree construction.
tree build took 0.673088 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.267865 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.1374 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.93314 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.673564 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.128267 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.92706 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.134196 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.92391 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.828474 sec
saving densities took 2.92881 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 1.47095 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 1.05021 sec)
Freed 3.36099 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 4214.47 Mbyte (on task=0), Smallest = 1799.35 Mbyte, Average = 1841.48 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      8.4932    3715.3465  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5717    3715.9182  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base    255.9738    3971.8919  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base    213.3115    4185.2034  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9565    4200.1599  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    4214.4631  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.46825 sec  (presently allocated=4214.46 MB)
force_treebuild() took 1.72997 sec (presently allocated=4214.46 MB)
Start find_linkngb (86507 particles on task=0)
find linkngb iteration 1: need to repeat for 0019639654 particles. (took 1.74617 sec)
find linkngb iteration 2: need to repeat for 0017325280 particles. (took 1.16197 sec)
find linkngb iteration 3: need to repeat for 0016499482 particles. (took 0.785154 sec)
find linkngb iteration 4: need to repeat for 0014318119 particles. (took 0.907225 sec)
find linkngb iteration 5: need to repeat for 0011857701 particles. (took 0.754527 sec)
find linkngb iteration 6: need to repeat for 0008574520 particles. (took 0.635727 sec)
find linkngb iteration 7: need to repeat for 0005392805 particles. (took 0.46075 sec)
find linkngb iteration 8: need to repeat for 0003069441 particles. (took 0.286953 sec)
find linkngb iteration 9: need to repeat for 0001645144 particles. (took 0.166901 sec)
find linkngb iteration 10: need to repeat for 0000853211 particles. (took 0.097316 sec)
find linkngb iteration 11: need to repeat for 0000433515 particles. (took 0.05897 sec)
find linkngb iteration 12: need to repeat for 0000091800 particles. (took 0.034214 sec)
find linkngb iteration 13: need to repeat for 0000002214 particles. (took 0.0122139 sec)
find linkngb iteration 14: need to repeat for 0000000824 particles. (took 0.00106406 sec)
find linkngb iteration 15: need to repeat for 0000000310 particles. (took 0.000682831 sec)
find linkngb iteration 16: need to repeat for 0000000115 particles. (took 0.000603914 sec)
find linkngb iteration 17: need to repeat for 0000000048 particles. (took 0.000553131 sec)
find linkngb iteration 18: need to repeat for 0000000010 particles. (took 0.000554085 sec)
find linkngb iteration 19: need to repeat for 0000000004 particles. (took 0.00051713 sec)
find linkngb iteration 20: need to repeat for 0000000001 particles. (took 0.000533104 sec)
find_linkngb() took 7.1148 sec
Start finding nearest two (86507 particles on task=0)
find_nearesttwo() took 1.23758 sec (presently allocated=4221.06 MB)
parallel sort of densities done. took 0.118715 sec
building distributed linked list. (presently allocated 4220.21 MB)
identification of primary candidates took 555.229 sec
adding background as candidate took 0.197982 sec
establishing of rank order took 159.241 sec  (p=22214736, grouplen=22214736) presently allocated 4220.21 MB

total number of subhalo candidates=108316

number of subhalo candidates that can be done independently=94234.
(Largest size is 3499, finding them took 0.0738699 sec)
particles are marked (took 126.515)
independent subhalos are assembled on individual CPUs for unbinding (0.223969 sec, (presently allocated=4220.21 MB)
unbinding of independent ones took 0.121237 sec
particles have returned to their original processor (0.290962 sec, presently allocated 4220.21 MB)

number of subhalo candidates that can be done independently=12881.
(Largest size is 48571, finding them took 0.927104 sec)
particles are marked (took 86.8922)
independent subhalos are assembled on individual CPUs for unbinding (0.188795 sec, (presently allocated=4220.21 MB)
unbinding of independent ones took 1.28223 sec
particles have returned to their original processor (0.245824 sec, presently allocated 4220.21 MB)

number of subhalo candidates that can be done independently=1120.
(Largest size is 111650, finding them took 0.898277 sec)
particles are marked (took 68.1825)
independent subhalos are assembled on individual CPUs for unbinding (0.169057 sec, (presently allocated=4220.21 MB)
unbinding of independent ones took 4.01655 sec
particles have returned to their original processor (0.22442 sec, presently allocated 4220.21 MB)

number of subhalo candidates that can be done independently=72.
(Largest size is 270458, finding them took 1.01992 sec)
particles are marked (took 61.2727)
independent subhalos are assembled on individual CPUs for unbinding (0.16374 sec, (presently allocated=4220.21 MB)
unbinding of independent ones took 5.22974 sec
particles have returned to their original processor (0.22329 sec, presently allocated 4220.21 MB)

number of subhalo candidates that can be done independently=2.
(Largest size is 4918483, finding them took 0.622086 sec)
too big candidates, I do the rest collectively

collective unbinding of nr=0 (9) of length=4918483 ... maximum alloacted 4220.54 MB
took 72.0713 sec
collective unbinding of nr=1 (9) of length=2928 ... maximum alloacted 4220.54 MB
took 2.26102 sec
collective unbinding of nr=2 (9) of length=270458 ... maximum alloacted 4220.54 MB
took 4.76735 sec
collective unbinding of nr=3 (9) of length=168409 ... maximum alloacted 4220.54 MB
took 5.5275 sec
collective unbinding of nr=4 (9) of length=209514 ... maximum alloacted 4220.54 MB
took 4.16606 sec
collective unbinding of nr=5 (9) of length=813161 ... maximum alloacted 4220.54 MB
took 13.4298 sec
collective unbinding of nr=6 (9) of length=5861 ... maximum alloacted 4220.54 MB
took 1.1108 sec
collective unbinding of nr=7 (9) of length=47778 ... maximum alloacted 4220.54 MB
took 1.55476 sec
collective unbinding of nr=8 (9) of length=22214736 ... maximum alloacted 4220.54 MB
took 367.212 sec

the collective unbinding of remaining halos took 520.284 sec

found 6931 bound substructures in FoF group of length 22214736
determination of parent subhalo took 0.0982659 sec (presently allocated 4220.54 MB)
determining substructure properties took 471.599 sec (presently allocated 4220.54 MB)

collectively doing halo 2, 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)
Before=129457
After=165001
NTopleaves= 144376  NTopnodes=165001 (space for 244687)
gravity work-load balance=1.00053   memory-balance=1.00053   SPH work-load balance=0
iter=0 exchange of 0012037815 particles (ret=0)
domain decomposition done. (took 0.923053 sec)
Freed 3.64774 MByte in top-level domain structure
coldomain_Decomposition() took 1.33431 sec  (presently allocated=4213.06 MB)
force_treebuild() took 1.68801 sec (presently allocated=4213.06 MB)
Start find_linkngb (47051 particles on task=0)
find linkngb iteration 1: need to repeat for 0011475251 particles. (took 0.904337 sec)
find linkngb iteration 2: need to repeat for 0010480918 particles. (took 0.639809 sec)
find linkngb iteration 3: need to repeat for 0009992444 particles. (took 0.437261 sec)
find linkngb iteration 4: need to repeat for 0008739442 particles. (took 0.493798 sec)
find linkngb iteration 5: need to repeat for 0007256636 particles. (took 0.451759 sec)
find linkngb iteration 6: need to repeat for 0005254784 particles. (took 0.35038 sec)
find linkngb iteration 7: need to repeat for 0003306026 particles. (took 0.251609 sec)
find linkngb iteration 8: need to repeat for 0001880159 particles. (took 0.158 sec)
find linkngb iteration 9: need to repeat for 0001007159 particles. (took 0.094898 sec)
find linkngb iteration 10: need to repeat for 0000521765 particles. (took 0.0581579 sec)
find linkngb iteration 11: need to repeat for 0000266380 particles. (took 0.033849 sec)
find linkngb iteration 12: need to repeat for 0000056634 particles. (took 0.0212851 sec)
find linkngb iteration 13: need to repeat for 0000001537 particles. (took 0.00868201 sec)
find linkngb iteration 14: need to repeat for 0000000545 particles. (took 0.000893116 sec)
find linkngb iteration 15: need to repeat for 0000000210 particles. (took 0.000546932 sec)
find linkngb iteration 16: need to repeat for 0000000070 particles. (took 0.000468016 sec)
find linkngb iteration 17: need to repeat for 0000000022 particles. (took 0.000431061 sec)
find linkngb iteration 18: need to repeat for 0000000005 particles. (took 0.000415087 sec)
find linkngb iteration 19: need to repeat for 0000000001 particles. (took 0.000403881 sec)
find_linkngb() took 3.90806 sec
Start finding nearest two (47051 particles on task=0)
find_nearesttwo() took 0.679686 sec (presently allocated=4216.65 MB)
parallel sort of densities done. took 0.0687609 sec
building distributed linked list. (presently allocated 4216.18 MB)
identification of primary candidates took 282.733 sec
adding background as candidate took 0.161955 sec
establishing of rank order took 89.1727 sec  (p=12091680, grouplen=12091680) presently allocated 4216.18 MB

total number of subhalo candidates=60794

number of subhalo candidates that can be done independently=52760.
(Largest size is 1571, finding them took 0.0163171 sec)
particles are marked (took 70.6475)
independent subhalos are assembled on individual CPUs for unbinding (0.18653 sec, (presently allocated=4216.18 MB)
unbinding of independent ones took 0.0497432 sec
particles have returned to their original processor (0.240643 sec, presently allocated 4216.18 MB)

number of subhalo candidates that can be done independently=7350.
(Largest size is 36910, finding them took 0.882786 sec)
particles are marked (took 48.7446)
independent subhalos are assembled on individual CPUs for unbinding (0.170088 sec, (presently allocated=4216.18 MB)
unbinding of independent ones took 0.913582 sec
particles have returned to their original processor (0.22709 sec, presently allocated 4216.18 MB)

number of subhalo candidates that can be done independently=626.
(Largest size is 143443, finding them took 0.858179 sec)
particles are marked (took 39.1921)
independent subhalos are assembled on individual CPUs for unbinding (0.159801 sec, (presently allocated=4216.18 MB)
unbinding of independent ones took 4.42823 sec
particles have returned to their original processor (0.219153 sec, presently allocated 4216.18 MB)

number of subhalo candidates that can be done independently=52.
(Largest size is 64136, finding them took 0.839895 sec)
particles are marked (took 33.158)
independent subhalos are assembled on individual CPUs for unbinding (0.150126 sec, (presently allocated=4216.18 MB)
unbinding of independent ones took 1.67875 sec
particles have returned to their original processor (0.210479 sec, presently allocated 4216.18 MB)

number of subhalo candidates that can be done independently=5.
(Largest size is 118158, finding them took 0.435389 sec)
particles are marked (took 29.7983)
independent subhalos are assembled on individual CPUs for unbinding (0.147803 sec, (presently allocated=4216.18 MB)
unbinding of independent ones took 4.42328 sec
particles have returned to their original processor (0.2089 sec, presently allocated 4216.18 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 12091680, finding them took 0.462584 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=12091680 ... maximum alloacted 4216.36 MB
took 200.189 sec

the collective unbinding of remaining halos took 227.193 sec

found 3983 bound substructures in FoF group of length 12091680
determination of parent subhalo took 0.0415921 sec (presently allocated 4216.36 MB)
determining substructure properties took 227.453 sec (presently allocated 4216.36 MB)

collectively doing halo 3, 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)
Before=137505
After=163377
NTopleaves= 142955  NTopnodes=163377 (space for 244687)
gravity work-load balance=1.00048   memory-balance=1.00048   SPH work-load balance=0
iter=0 exchange of 0005609294 particles (ret=0)
domain decomposition done. (took 0.861369 sec)
Freed 3.72208 MByte in top-level domain structure
coldomain_Decomposition() took 1.27433 sec  (presently allocated=4212.69 MB)
force_treebuild() took 1.64575 sec (presently allocated=4212.69 MB)
Start find_linkngb (22005 particles on task=0)
find linkngb iteration 1: need to repeat for 0005562913 particles. (took 0.41346 sec)
find linkngb iteration 2: need to repeat for 0005340512 particles. (took 0.280494 sec)
find linkngb iteration 3: need to repeat for 0005109465 particles. (took 0.195108 sec)
find linkngb iteration 4: need to repeat for 0004529694 particles. (took 0.221064 sec)
find linkngb iteration 5: need to repeat for 0003778617 particles. (took 0.189143 sec)
find linkngb iteration 6: need to repeat for 0002742562 particles. (took 0.156053 sec)
find linkngb iteration 7: need to repeat for 0001728677 particles. (took 0.113328 sec)
find linkngb iteration 8: need to repeat for 0000984987 particles. (took 0.0736809 sec)
find linkngb iteration 9: need to repeat for 0000528548 particles. (took 0.0472701 sec)
find linkngb iteration 10: need to repeat for 0000274581 particles. (took 0.0313289 sec)
find linkngb iteration 11: need to repeat for 0000139228 particles. (took 0.0192001 sec)
find linkngb iteration 12: need to repeat for 0000029964 particles. (took 0.0150089 sec)
find linkngb iteration 13: need to repeat for 0000001020 particles. (took 0.00674915 sec)
find linkngb iteration 14: need to repeat for 0000000389 particles. (took 0.000576019 sec)
find linkngb iteration 15: need to repeat for 0000000171 particles. (took 0.000476122 sec)
find linkngb iteration 16: need to repeat for 0000000066 particles. (took 0.000374079 sec)
find linkngb iteration 17: need to repeat for 0000000028 particles. (took 0.000339031 sec)
find linkngb iteration 18: need to repeat for 0000000008 particles. (took 0.000331879 sec)
find linkngb iteration 19: need to repeat for 0000000003 particles. (took 0.000330925 sec)
find_linkngb() took 1.7652 sec
Start finding nearest two (22005 particles on task=0)
find_nearesttwo() took 0.329617 sec (presently allocated=4214.37 MB)
parallel sort of densities done. took 0.0516479 sec
building distributed linked list. (presently allocated 4214.15 MB)
identification of primary candidates took 139.085 sec
adding background as candidate took 0.160782 sec
establishing of rank order took 42.9763 sec  (p=5634132, grouplen=5634132) presently allocated 4214.15 MB

total number of subhalo candidates=26321

number of subhalo candidates that can be done independently=23173.
(Largest size is 1711, finding them took 0.00715494 sec)
particles are marked (took 31.3933)
independent subhalos are assembled on individual CPUs for unbinding (0.156894 sec, (presently allocated=4214.15 MB)
unbinding of independent ones took 0.0478549 sec
particles have returned to their original processor (0.214392 sec, presently allocated 4214.15 MB)

number of subhalo candidates that can be done independently=2892.
(Largest size is 13143, finding them took 0.841605 sec)
particles are marked (took 20.9461)
independent subhalos are assembled on individual CPUs for unbinding (0.15708 sec, (presently allocated=4214.15 MB)
unbinding of independent ones took 0.42623 sec
particles have returned to their original processor (0.214996 sec, presently allocated 4214.15 MB)

number of subhalo candidates that can be done independently=238.
(Largest size is 62300, finding them took 0.8084 sec)
particles are marked (took 17.8617)
independent subhalos are assembled on individual CPUs for unbinding (0.161146 sec, (presently allocated=4214.15 MB)
unbinding of independent ones took 1.82483 sec
particles have returned to their original processor (0.229875 sec, presently allocated 4214.15 MB)

number of subhalo candidates that can be done independently=15.
(Largest size is 107797, finding them took 1.0082 sec)
particles are marked (took 16.2096)
independent subhalos are assembled on individual CPUs for unbinding (0.150938 sec, (presently allocated=4214.15 MB)
unbinding of independent ones took 2.95847 sec
particles have returned to their original processor (0.215388 sec, presently allocated 4214.15 MB)

number of subhalo candidates that can be done independently=2.
(Largest size is 69759, finding them took 0.422631 sec)
particles are marked (took 13.3973)
independent subhalos are assembled on individual CPUs for unbinding (0.149784 sec, (presently allocated=4214.15 MB)
unbinding of independent ones took 1.38896 sec
particles have returned to their original processor (0.218054 sec, presently allocated 4214.15 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 5634132, finding them took 0.421665 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=5634132 ... maximum alloacted 4214.24 MB
took 92.923 sec

the collective unbinding of remaining halos took 104.603 sec

found 2058 bound substructures in FoF group of length 5634132
determination of parent subhalo took 0.034389 sec (presently allocated 4214.24 MB)
determining substructure properties took 111.708 sec (presently allocated 4214.24 MB)

collectively doing halo 4, 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)
Before=138721
After=167041
NTopleaves= 146161  NTopnodes=167041 (space for 244687)
gravity work-load balance=1.00049   memory-balance=1.00049   SPH work-load balance=0
iter=0 exchange of 0004750479 particles (ret=0)
domain decomposition done. (took 0.876293 sec)
Freed 3.55435 MByte in top-level domain structure
coldomain_Decomposition() took 1.28824 sec  (presently allocated=4213.51 MB)
force_treebuild() took 1.63681 sec (presently allocated=4213.51 MB)
Start find_linkngb (18622 particles on task=0)
find linkngb iteration 1: need to repeat for 0004733124 particles. (took 0.352945 sec)
find linkngb iteration 2: need to repeat for 0004588544 particles. (took 0.232601 sec)
find linkngb iteration 3: need to repeat for 0004392938 particles. (took 0.161756 sec)
find linkngb iteration 4: need to repeat for 0003911284 particles. (took 0.199808 sec)
find linkngb iteration 5: need to repeat for 0003272812 particles. (took 0.159537 sec)
find linkngb iteration 6: need to repeat for 0002381589 particles. (took 0.13085 sec)
find linkngb iteration 7: need to repeat for 0001503198 particles. (took 0.095556 sec)
find linkngb iteration 8: need to repeat for 0000857279 particles. (took 0.062963 sec)
find linkngb iteration 9: need to repeat for 0000459813 particles. (took 0.039849 sec)
find linkngb iteration 10: need to repeat for 0000238226 particles. (took 0.0250671 sec)
find linkngb iteration 11: need to repeat for 0000120984 particles. (took 0.0165439 sec)
find linkngb iteration 12: need to repeat for 0000026380 particles. (took 0.012161 sec)
find linkngb iteration 13: need to repeat for 0000000821 particles. (took 0.00661206 sec)
find linkngb iteration 14: need to repeat for 0000000268 particles. (took 0.000592947 sec)
find linkngb iteration 15: need to repeat for 0000000117 particles. (took 0.000447989 sec)
find linkngb iteration 16: need to repeat for 0000000044 particles. (took 0.000366926 sec)
find linkngb iteration 17: need to repeat for 0000000013 particles. (took 0.000342846 sec)
find linkngb iteration 18: need to repeat for 0000000005 particles. (took 0.000339031 sec)
find linkngb iteration 19: need to repeat for 0000000001 particles. (took 0.000323057 sec)
find_linkngb() took 1.49951 sec
Start finding nearest two (18622 particles on task=0)
find_nearesttwo() took 0.281811 sec (presently allocated=4214.94 MB)
parallel sort of densities done. took 0.0410049 sec
building distributed linked list. (presently allocated 4214.75 MB)
identification of primary candidates took 116.903 sec
adding background as candidate took 0.160563 sec
establishing of rank order took 37.0401 sec  (p=4767192, grouplen=4767192) presently allocated 4214.75 MB

total number of subhalo candidates=21553

number of subhalo candidates that can be done independently=19175.
(Largest size is 3370, finding them took 0.00583005 sec)
particles are marked (took 25.9364)
independent subhalos are assembled on individual CPUs for unbinding (0.153401 sec, (presently allocated=4214.75 MB)
unbinding of independent ones took 0.0580521 sec
particles have returned to their original processor (0.209814 sec, presently allocated 4214.75 MB)

number of subhalo candidates that can be done independently=2205.
(Largest size is 20856, finding them took 0.829069 sec)
particles are marked (took 17.4238)
independent subhalos are assembled on individual CPUs for unbinding (0.153769 sec, (presently allocated=4214.75 MB)
unbinding of independent ones took 0.499105 sec
particles have returned to their original processor (0.214213 sec, presently allocated 4214.75 MB)

number of subhalo candidates that can be done independently=160.
(Largest size is 69942, finding them took 0.756697 sec)
particles are marked (took 14.7959)
independent subhalos are assembled on individual CPUs for unbinding (0.156987 sec, (presently allocated=4214.75 MB)
unbinding of independent ones took 2.01063 sec
particles have returned to their original processor (0.22587 sec, presently allocated 4214.75 MB)

number of subhalo candidates that can be done independently=11.
(Largest size is 128679, finding them took 0.448361 sec)
particles are marked (took 13.789)
independent subhalos are assembled on individual CPUs for unbinding (0.152665 sec, (presently allocated=4214.75 MB)
unbinding of independent ones took 5.65581 sec
particles have returned to their original processor (0.22098 sec, presently allocated 4214.75 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 15091, finding them took 0.415453 sec)
particles are marked (took 10.2827)
independent subhalos are assembled on individual CPUs for unbinding (0.142586 sec, (presently allocated=4214.75 MB)
unbinding of independent ones took 0.221071 sec
particles have returned to their original processor (0.202553 sec, presently allocated 4214.75 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 4767192, finding them took 0.412141 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=4767192 ... maximum alloacted 4214.82 MB
took 82.5454 sec

the collective unbinding of remaining halos took 92.1256 sec

found 1681 bound substructures in FoF group of length 4767192
determination of parent subhalo took 0.0305009 sec (presently allocated 4214.82 MB)
determining substructure properties took 93.831 sec (presently allocated 4214.82 MB)

collectively doing halo 5, 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)
Before=146385
After=169305
NTopleaves= 148142  NTopnodes=169305 (space for 244687)
gravity work-load balance=1.0004   memory-balance=1.0004   SPH work-load balance=0
iter=0 exchange of 0003381756 particles (ret=0)
domain decomposition done. (took 0.852746 sec)
Freed 3.45071 MByte in top-level domain structure
coldomain_Decomposition() took 1.26194 sec  (presently allocated=4214.02 MB)
force_treebuild() took 1.64626 sec (presently allocated=4214.02 MB)
Start find_linkngb (13233 particles on task=0)
find linkngb iteration 1: need to repeat for 0003383406 particles. (took 0.238801 sec)
find linkngb iteration 2: need to repeat for 0003316074 particles. (took 0.157016 sec)
find linkngb iteration 3: need to repeat for 0003180009 particles. (took 0.109517 sec)
find linkngb iteration 4: need to repeat for 0002847312 particles. (took 0.123968 sec)
find linkngb iteration 5: need to repeat for 0002390124 particles. (took 0.10804 sec)
find linkngb iteration 6: need to repeat for 0001742323 particles. (took 0.0905459 sec)
find linkngb iteration 7: need to repeat for 0001099790 particles. (took 0.0701151 sec)
find linkngb iteration 8: need to repeat for 0000627376 particles. (took 0.0456879 sec)
find linkngb iteration 9: need to repeat for 0000337344 particles. (took 0.029541 sec)
find linkngb iteration 10: need to repeat for 0000175145 particles. (took 0.019774 sec)
find linkngb iteration 11: need to repeat for 0000089426 particles. (took 0.0132489 sec)
find linkngb iteration 12: need to repeat for 0000019598 particles. (took 0.0587621 sec)
find linkngb iteration 13: need to repeat for 0000000701 particles. (took 0.00974798 sec)
find linkngb iteration 14: need to repeat for 0000000255 particles. (took 0.000748873 sec)
find linkngb iteration 15: need to repeat for 0000000100 particles. (took 0.0010879 sec)
find linkngb iteration 16: need to repeat for 0000000036 particles. (took 0.000785112 sec)
find linkngb iteration 17: need to repeat for 0000000013 particles. (took 0.000414133 sec)
find linkngb iteration 18: need to repeat for 0000000002 particles. (took 0.000324011 sec)
find_linkngb() took 1.07906 sec
Start finding nearest two (13233 particles on task=0)
find_nearesttwo() took 0.238209 sec (presently allocated=4215.03 MB)
parallel sort of densities done. took 0.0368662 sec
building distributed linked list. (presently allocated 4214.9 MB)
identification of primary candidates took 86.7853 sec
adding background as candidate took 0.159091 sec
establishing of rank order took 27.8235 sec  (p=3393961, grouplen=3393961) presently allocated 4214.9 MB

total number of subhalo candidates=14180

number of subhalo candidates that can be done independently=12748.
(Largest size is 3833, finding them took 0.00395012 sec)
particles are marked (took 17.548)
independent subhalos are assembled on individual CPUs for unbinding (0.14949 sec, (presently allocated=4214.9 MB)
unbinding of independent ones took 0.0612659 sec
particles have returned to their original processor (0.206564 sec, presently allocated 4214.9 MB)

number of subhalo candidates that can be done independently=1344.
(Largest size is 22508, finding them took 0.822693 sec)
particles are marked (took 11.7781)
independent subhalos are assembled on individual CPUs for unbinding (0.15217 sec, (presently allocated=4214.9 MB)
unbinding of independent ones took 0.528269 sec
particles have returned to their original processor (0.212771 sec, presently allocated 4214.9 MB)

number of subhalo candidates that can be done independently=80.
(Largest size is 36404, finding them took 0.810745 sec)
particles are marked (took 9.9949)
independent subhalos are assembled on individual CPUs for unbinding (0.152427 sec, (presently allocated=4214.9 MB)
unbinding of independent ones took 1.32472 sec
particles have returned to their original processor (0.217277 sec, presently allocated 4214.9 MB)

number of subhalo candidates that can be done independently=7.
(Largest size is 121129, finding them took 0.707768 sec)
particles are marked (took 10.7624)
independent subhalos are assembled on individual CPUs for unbinding (0.160369 sec, (presently allocated=4214.9 MB)
unbinding of independent ones took 3.25904 sec
particles have returned to their original processor (0.232343 sec, presently allocated 4214.9 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 3393961, finding them took 0.411878 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=3393961 ... maximum alloacted 4214.95 MB
took 57.0563 sec

the collective unbinding of remaining halos took 63.4212 sec

found 1276 bound substructures in FoF group of length 3393961
determination of parent subhalo took 0.0262961 sec (presently allocated 4214.95 MB)
determining substructure properties took 69.7928 sec (presently allocated 4214.95 MB)

collectively doing halo 6, 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)
Before=144369
After=167009
NTopleaves= 146133  NTopnodes=167009 (space for 244687)
gravity work-load balance=1.00046   memory-balance=1.00046   SPH work-load balance=0
iter=0 exchange of 0002939676 particles (ret=0)
domain decomposition done. (took 0.859126 sec)
Freed 3.55582 MByte in top-level domain structure
coldomain_Decomposition() took 1.26987 sec  (presently allocated=4213.51 MB)
force_treebuild() took 1.63587 sec (presently allocated=4213.51 MB)
Start find_linkngb (11519 particles on task=0)
find linkngb iteration 1: need to repeat for 0002942377 particles. (took 0.200124 sec)
find linkngb iteration 2: need to repeat for 0002889947 particles. (took 0.132774 sec)
find linkngb iteration 3: need to repeat for 0002772707 particles. (took 0.096293 sec)
find linkngb iteration 4: need to repeat for 0002485621 particles. (took 0.105243 sec)
find linkngb iteration 5: need to repeat for 0002084790 particles. (took 0.092804 sec)
find linkngb iteration 6: need to repeat for 0001518801 particles. (took 0.077317 sec)
find linkngb iteration 7: need to repeat for 0000958785 particles. (took 0.0583711 sec)
find linkngb iteration 8: need to repeat for 0000546832 particles. (took 0.040015 sec)
find linkngb iteration 9: need to repeat for 0000293779 particles. (took 0.026722 sec)
find linkngb iteration 10: need to repeat for 0000152051 particles. (took 0.017839 sec)
find linkngb iteration 11: need to repeat for 0000077722 particles. (took 0.0129759 sec)
find linkngb iteration 12: need to repeat for 0000016976 particles. (took 0.00948811 sec)
find linkngb iteration 13: need to repeat for 0000000700 particles. (took 0.00558615 sec)
find linkngb iteration 14: need to repeat for 0000000251 particles. (took 0.000643015 sec)
find linkngb iteration 15: need to repeat for 0000000098 particles. (took 0.000447035 sec)
find linkngb iteration 16: need to repeat for 0000000038 particles. (took 0.00045085 sec)
find linkngb iteration 17: need to repeat for 0000000010 particles. (took 0.000419855 sec)
find linkngb iteration 18: need to repeat for 0000000002 particles. (took 0.000416994 sec)
find linkngb iteration 19: need to repeat for 0000000001 particles. (took 0.00040102 sec)
find_linkngb() took 0.87925 sec
Start finding nearest two (11519 particles on task=0)
find_nearesttwo() took 0.17314 sec (presently allocated=4214.39 MB)
parallel sort of densities done. took 0.0366061 sec
building distributed linked list. (presently allocated 4214.27 MB)
identification of primary candidates took 76.4788 sec
adding background as candidate took 0.158438 sec
establishing of rank order took 23.5462 sec  (p=2950310, grouplen=2950310) presently allocated 4214.27 MB

total number of subhalo candidates=12121

number of subhalo candidates that can be done independently=11008.
(Largest size is 3178, finding them took 0.00351787 sec)
particles are marked (took 15.0887)
independent subhalos are assembled on individual CPUs for unbinding (0.147894 sec, (presently allocated=4214.27 MB)
unbinding of independent ones took 0.0624819 sec
particles have returned to their original processor (0.204695 sec, presently allocated 4214.27 MB)

number of subhalo candidates that can be done independently=1028.
(Largest size is 14010, finding them took 0.822315 sec)
particles are marked (took 9.63316)
independent subhalos are assembled on individual CPUs for unbinding (0.15092 sec, (presently allocated=4214.27 MB)
unbinding of independent ones took 0.387151 sec
particles have returned to their original processor (0.210758 sec, presently allocated 4214.27 MB)

number of subhalo candidates that can be done independently=76.
(Largest size is 185449, finding them took 0.862009 sec)
particles are marked (took 10.713)
independent subhalos are assembled on individual CPUs for unbinding (0.154854 sec, (presently allocated=4214.27 MB)
unbinding of independent ones took 2.04118 sec
particles have returned to their original processor (0.222708 sec, presently allocated 4214.27 MB)

number of subhalo candidates that can be done independently=7.
(Largest size is 185449, finding them took 0.723662 sec)
particles are marked (took 7.43556)
independent subhalos are assembled on individual CPUs for unbinding (0.152888 sec, (presently allocated=4214.27 MB)
unbinding of independent ones took 1.00679 sec
particles have returned to their original processor (0.224535 sec, presently allocated 4214.27 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 185449, finding them took 0.411306 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=185449 ... maximum alloacted 4214.32 MB
took 4.08541 sec
collective unbinding of nr=1 (2) of length=2950310 ... maximum alloacted 4214.32 MB
took 49.5698 sec

the collective unbinding of remaining halos took 59.04 sec

found 1094 bound substructures in FoF group of length 2950310
determination of parent subhalo took 0.025568 sec (presently allocated 4214.32 MB)
determining substructure properties took 61.6161 sec (presently allocated 4214.32 MB)

collectively doing halo 7, 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)
Before=143641
After=167209
NTopleaves= 146308  NTopnodes=167209 (space for 244687)
gravity work-load balance=1.00052   memory-balance=1.00052   SPH work-load balance=0
iter=0 exchange of 0002787834 particles (ret=0)
domain decomposition done. (took 0.847263 sec)
Freed 3.54666 MByte in top-level domain structure
coldomain_Decomposition() took 1.25978 sec  (presently allocated=4213.55 MB)
force_treebuild() took 1.62751 sec (presently allocated=4213.55 MB)
Start find_linkngb (10900 particles on task=0)
find linkngb iteration 1: need to repeat for 0002791489 particles. (took 0.199021 sec)
find linkngb iteration 2: need to repeat for 0002745375 particles. (took 0.126716 sec)
find linkngb iteration 3: need to repeat for 0002635340 particles. (took 0.0888021 sec)
find linkngb iteration 4: need to repeat for 0002365890 particles. (took 0.100822 sec)
find linkngb iteration 5: need to repeat for 0001987529 particles. (took 0.0873861 sec)
find linkngb iteration 6: need to repeat for 0001448874 particles. (took 0.0755558 sec)
find linkngb iteration 7: need to repeat for 0000915648 particles. (took 0.0556409 sec)
find linkngb iteration 8: need to repeat for 0000522589 particles. (took 0.0692389 sec)
find linkngb iteration 9: need to repeat for 0000280320 particles. (took 0.036864 sec)
find linkngb iteration 10: need to repeat for 0000145632 particles. (took 0.0170329 sec)
find linkngb iteration 11: need to repeat for 0000074091 particles. (took 0.051271 sec)
find linkngb iteration 12: need to repeat for 0000016335 particles. (took 0.016871 sec)
find linkngb iteration 13: need to repeat for 0000000695 particles. (took 0.00515985 sec)
find linkngb iteration 14: need to repeat for 0000000251 particles. (took 0.000544786 sec)
find linkngb iteration 15: need to repeat for 0000000097 particles. (took 0.00037694 sec)
find linkngb iteration 16: need to repeat for 0000000036 particles. (took 0.00032711 sec)
find linkngb iteration 17: need to repeat for 0000000012 particles. (took 0.000328064 sec)
find linkngb iteration 18: need to repeat for 0000000004 particles. (took 0.000301123 sec)
find linkngb iteration 19: need to repeat for 0000000002 particles. (took 0.000293016 sec)
find linkngb iteration 20: need to repeat for 0000000001 particles. (took 0.000294924 sec)
find_linkngb() took 0.933642 sec
Start finding nearest two (10900 particles on task=0)
find_nearesttwo() took 0.171806 sec (presently allocated=4214.38 MB)
parallel sort of densities done. took 0.0347531 sec
building distributed linked list. (presently allocated 4214.28 MB)
identification of primary candidates took 70.1056 sec
adding background as candidate took 0.158454 sec
establishing of rank order took 22.5439 sec  (p=2797406, grouplen=2797406) presently allocated 4214.28 MB

total number of subhalo candidates=12289

number of subhalo candidates that can be done independently=11057.
(Largest size is 1896, finding them took 0.00349998 sec)
particles are marked (took 15.1337)
independent subhalos are assembled on individual CPUs for unbinding (0.146303 sec, (presently allocated=4214.28 MB)
unbinding of independent ones took 0.0348079 sec
particles have returned to their original processor (0.204245 sec, presently allocated 4214.28 MB)

number of subhalo candidates that can be done independently=1151.
(Largest size is 22265, finding them took 0.835723 sec)
particles are marked (took 10.1518)
independent subhalos are assembled on individual CPUs for unbinding (0.147634 sec, (presently allocated=4214.28 MB)
unbinding of independent ones took 0.627478 sec
particles have returned to their original processor (0.208024 sec, presently allocated 4214.28 MB)

number of subhalo candidates that can be done independently=73.
(Largest size is 49413, finding them took 0.769784 sec)
particles are marked (took 8.21229)
independent subhalos are assembled on individual CPUs for unbinding (0.151946 sec, (presently allocated=4214.28 MB)
unbinding of independent ones took 1.14133 sec
particles have returned to their original processor (0.217643 sec, presently allocated 4214.28 MB)

number of subhalo candidates that can be done independently=7.
(Largest size is 48092, finding them took 0.412434 sec)
particles are marked (took 7.20993)
independent subhalos are assembled on individual CPUs for unbinding (0.145896 sec, (presently allocated=4214.28 MB)
unbinding of independent ones took 0.637519 sec
particles have returned to their original processor (0.210546 sec, presently allocated 4214.28 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 2797406, finding them took 0.444775 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=2797406 ... maximum alloacted 4214.32 MB
took 47.1111 sec

the collective unbinding of remaining halos took 52.5555 sec

found 1047 bound substructures in FoF group of length 2797406
determination of parent subhalo took 0.02669 sec (presently allocated 4214.32 MB)
determining substructure properties took 55.9044 sec (presently allocated 4214.32 MB)
processing of collective halos took 5006.81 sec
sort of local particles()() took 0.587778 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 263.158 sec

Task 253: testing particles ...
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unsorting of local particles()() took 0.539485 sec
Task 0: testing particles ...
Task 157: testing particles ...
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Task 7: testing particles ...
subfind_exchange() (for return to original CPU)  took 3.0355 sec
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)
Before=186521
After=205057
NTopleaves= 179425  NTopnodes=205057 (space for 244687)
gravity work-load balance=1.00042   memory-balance=1.00042   SPH work-load balance=0
iter=0 exchange of 0273195440 particles (ret=0)
domain decomposition done. (took 3.5547 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.81412 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000148765 particles. (took 0.0255539 sec)
SO iteration 2: need to repeat for 0000148765 particles. (took 0.020469 sec)
SO iteration 3: need to repeat for 0000148765 particles. (took 0.021179 sec)
SO iteration 4: need to repeat for 0000148765 particles. (took 0.021179 sec)
SO iteration 5: need to repeat for 0000148765 particles. (took 0.0204949 sec)
SO iteration 6: need to repeat for 0000148765 particles. (took 0.0211811 sec)
SO iteration 7: need to repeat for 0000148765 particles. (took 0.0212252 sec)
SO iteration 8: need to repeat for 0000148765 particles. (took 0.0208631 sec)
SO iteration 9: need to repeat for 0000148765 particles. (took 0.020478 sec)
SO iteration 10: need to repeat for 0000148765 particles. (took 0.021035 sec)
SO iteration 11: need to repeat for 0000148765 particles. (took 0.020853 sec)
SO iteration 12: need to repeat for 0000148765 particles. (took 0.0205162 sec)
SO iteration 13: need to repeat for 0000148765 particles. (took 0.0205472 sec)
SO iteration 14: need to repeat for 0000148765 particles. (took 0.0202832 sec)
SO iteration 15: need to repeat for 0000148199 particles. (took 0.020211 sec)
SO iteration 16: need to repeat for 0000000328 particles. (took 0.0191839 sec)
SO iteration 17: need to repeat for 0000000027 particles. (took 0.000947952 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000584841 sec)
SO iteration 1: need to repeat for 0000148765 particles. (took 0.0200341 sec)
SO iteration 2: need to repeat for 0000148765 particles. (took 0.0180428 sec)
SO iteration 3: need to repeat for 0000148765 particles. (took 0.0189991 sec)
SO iteration 4: need to repeat for 0000148765 particles. (took 0.0180001 sec)
SO iteration 5: need to repeat for 0000148765 particles. (took 0.018394 sec)
SO iteration 6: need to repeat for 0000148765 particles. (took 0.018204 sec)
SO iteration 7: need to repeat for 0000148765 particles. (took 0.019242 sec)
SO iteration 8: need to repeat for 0000148765 particles. (took 0.0181651 sec)
SO iteration 9: need to repeat for 0000148765 particles. (took 0.019397 sec)
SO iteration 10: need to repeat for 0000148765 particles. (took 0.018115 sec)
SO iteration 11: need to repeat for 0000148765 particles. (took 0.018049 sec)
SO iteration 12: need to repeat for 0000148765 particles. (took 0.018048 sec)
SO iteration 13: need to repeat for 0000148765 particles. (took 0.0185971 sec)
SO iteration 14: need to repeat for 0000148765 particles. (took 0.018084 sec)
SO iteration 15: need to repeat for 0000148635 particles. (took 0.0180838 sec)
SO iteration 16: need to repeat for 0000014054 particles. (took 0.0179319 sec)
SO iteration 17: need to repeat for 0000000250 particles. (took 0.00528383 sec)
SO iteration 18: need to repeat for 0000000038 particles. (took 0.000723124 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000596046 sec)
SO iteration 1: need to repeat for 0000148765 particles. (took 0.0200641 sec)
SO iteration 2: need to repeat for 0000148765 particles. (took 0.017622 sec)
SO iteration 3: need to repeat for 0000148765 particles. (took 0.0164728 sec)
SO iteration 4: need to repeat for 0000148765 particles. (took 0.017065 sec)
SO iteration 5: need to repeat for 0000148765 particles. (took 0.016793 sec)
SO iteration 6: need to repeat for 0000148765 particles. (took 0.017107 sec)
SO iteration 7: need to repeat for 0000148765 particles. (took 0.0170119 sec)
SO iteration 8: need to repeat for 0000148765 particles. (took 0.0187199 sec)
SO iteration 9: need to repeat for 0000148765 particles. (took 0.0171258 sec)
SO iteration 10: need to repeat for 0000148765 particles. (took 0.0171239 sec)
SO iteration 11: need to repeat for 0000148765 particles. (took 0.01705 sec)
SO iteration 12: need to repeat for 0000148765 particles. (took 0.017102 sec)
SO iteration 13: need to repeat for 0000148765 particles. (took 0.016984 sec)
SO iteration 14: need to repeat for 0000148765 particles. (took 0.0189259 sec)
SO iteration 15: need to repeat for 0000148752 particles. (took 0.0171201 sec)
SO iteration 16: need to repeat for 0000148717 particles. (took 0.017174 sec)
SO iteration 17: need to repeat for 0000018962 particles. (took 0.0169852 sec)
SO iteration 18: need to repeat for 0000000417 particles. (took 0.00540209 sec)
SO iteration 19: need to repeat for 0000000060 particles. (took 0.000763178 sec)
SO iteration 20: need to repeat for 0000000001 particles. (took 0.00061202 sec)
SO iteration 1: need to repeat for 0000148765 particles. (took 0.0200019 sec)
SO iteration 2: need to repeat for 0000148765 particles. (took 0.0179088 sec)
SO iteration 3: need to repeat for 0000148765 particles. (took 0.0190749 sec)
SO iteration 4: need to repeat for 0000148765 particles. (took 0.0194349 sec)
SO iteration 5: need to repeat for 0000148765 particles. (took 0.0193739 sec)
SO iteration 6: need to repeat for 0000148765 particles. (took 0.0191889 sec)
SO iteration 7: need to repeat for 0000148765 particles. (took 0.019177 sec)
SO iteration 8: need to repeat for 0000148765 particles. (took 0.0191031 sec)
SO iteration 9: need to repeat for 0000148765 particles. (took 0.019186 sec)
SO iteration 10: need to repeat for 0000148765 particles. (took 0.019166 sec)
SO iteration 11: need to repeat for 0000148765 particles. (took 0.0193188 sec)
SO iteration 12: need to repeat for 0000148765 particles. (took 0.019268 sec)
SO iteration 13: need to repeat for 0000148765 particles. (took 0.0191431 sec)
SO iteration 14: need to repeat for 0000148765 particles. (took 0.0216758 sec)
SO iteration 15: need to repeat for 0000148504 particles. (took 0.0192921 sec)
SO iteration 16: need to repeat for 0000002210 particles. (took 0.0185812 sec)
SO iteration 17: need to repeat for 0000000099 particles. (took 0.00157499 sec)
SO iteration 18: need to repeat for 0000000006 particles. (took 0.000700951 sec)
SO iteration 1: need to repeat for 0000148765 particles. (took 0.020036 sec)
SO iteration 2: need to repeat for 0000148765 particles. (took 0.017791 sec)
SO iteration 3: need to repeat for 0000148765 particles. (took 0.018791 sec)
SO iteration 4: need to repeat for 0000148765 particles. (took 0.018003 sec)
SO iteration 5: need to repeat for 0000148765 particles. (took 0.0180421 sec)
SO iteration 6: need to repeat for 0000148765 particles. (took 0.017993 sec)
SO iteration 7: need to repeat for 0000148765 particles. (took 0.017951 sec)
SO iteration 8: need to repeat for 0000148765 particles. (took 0.0179951 sec)
SO iteration 9: need to repeat for 0000148765 particles. (took 0.0179121 sec)
SO iteration 10: need to repeat for 0000148765 particles. (took 0.0199912 sec)
SO iteration 11: need to repeat for 0000148765 particles. (took 0.0198679 sec)
SO iteration 12: need to repeat for 0000148765 particles. (took 0.017971 sec)
SO iteration 13: need to repeat for 0000148765 particles. (took 0.018512 sec)
SO iteration 14: need to repeat for 0000148765 particles. (took 0.018364 sec)
SO iteration 15: need to repeat for 0000148665 particles. (took 0.0179548 sec)
SO iteration 16: need to repeat for 0000033926 particles. (took 0.0178959 sec)
SO iteration 17: need to repeat for 0000000348 particles. (took 0.00827408 sec)
SO iteration 18: need to repeat for 0000000061 particles. (took 0.000798941 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000591993 sec)
SO iteration 1: need to repeat for 0000148765 particles. (took 0.0201361 sec)
SO iteration 2: need to repeat for 0000148765 particles. (took 0.0182469 sec)
SO iteration 3: need to repeat for 0000148765 particles. (took 0.0189559 sec)
SO iteration 4: need to repeat for 0000148765 particles. (took 0.017539 sec)
SO iteration 5: need to repeat for 0000148765 particles. (took 0.0178111 sec)
SO iteration 6: need to repeat for 0000148765 particles. (took 0.0179429 sec)
SO iteration 7: need to repeat for 0000148765 particles. (took 0.017684 sec)
SO iteration 8: need to repeat for 0000148765 particles. (took 0.0170341 sec)
SO iteration 9: need to repeat for 0000148765 particles. (took 0.0171142 sec)
SO iteration 10: need to repeat for 0000148765 particles. (took 0.0169909 sec)
SO iteration 11: need to repeat for 0000148765 particles. (took 0.01704 sec)
SO iteration 12: need to repeat for 0000148765 particles. (took 0.0171859 sec)
SO iteration 13: need to repeat for 0000148765 particles. (took 0.017164 sec)
SO iteration 14: need to repeat for 0000148765 particles. (took 0.0170491 sec)
SO iteration 15: need to repeat for 0000148746 particles. (took 0.016993 sec)
SO iteration 16: need to repeat for 0000148644 particles. (took 0.0188379 sec)
SO iteration 17: need to repeat for 0000003767 particles. (took 0.0168669 sec)
SO iteration 18: need to repeat for 0000000211 particles. (took 0.00195599 sec)
SO iteration 19: need to repeat for 0000000021 particles. (took 0.00066185 sec)
SO iteration 1: need to repeat for 0000148765 particles. (took 0.020191 sec)
SO iteration 2: need to repeat for 0000148765 particles. (took 0.0176249 sec)
SO iteration 3: need to repeat for 0000148765 particles. (took 0.0165479 sec)
SO iteration 4: need to repeat for 0000148765 particles. (took 0.0150158 sec)
SO iteration 5: need to repeat for 0000148765 particles. (took 0.016031 sec)
SO iteration 6: need to repeat for 0000148765 particles. (took 0.0160038 sec)
SO iteration 7: need to repeat for 0000148765 particles. (took 0.016016 sec)
SO iteration 8: need to repeat for 0000148765 particles. (took 0.016166 sec)
SO iteration 9: need to repeat for 0000148765 particles. (took 0.0164618 sec)
SO iteration 10: need to repeat for 0000148765 particles. (took 0.017005 sec)
SO iteration 11: need to repeat for 0000148765 particles. (took 0.016299 sec)
SO iteration 12: need to repeat for 0000148765 particles. (took 0.0160449 sec)
SO iteration 13: need to repeat for 0000148765 particles. (took 0.0161059 sec)
SO iteration 14: need to repeat for 0000148765 particles. (took 0.016082 sec)
SO iteration 15: need to repeat for 0000148764 particles. (took 0.0160801 sec)
SO iteration 16: need to repeat for 0000148759 particles. (took 0.0161738 sec)
SO iteration 17: need to repeat for 0000148719 particles. (took 0.0161281 sec)
SO iteration 18: need to repeat for 0000009841 particles. (took 0.016042 sec)
SO iteration 19: need to repeat for 0000000281 particles. (took 0.00310397 sec)
SO iteration 20: need to repeat for 0000000030 particles. (took 0.000702143 sec)
SO iteration 21: need to repeat for 0000000001 particles. (took 0.000584841 sec)
determining spherical overdensity masses took 2.16919 sec
finding spherical overdensity particles took 0.526763 sec
determining contamination of halos took 0.171507 sec
Global sort of Groups took 0.0986431 sec
Global sort of SubGroups took 0.320347 sec
Global sort of IDs took 0.487496 sec
Writing block 0 (GLEN), n=721, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2884d
Writing block 1 (GOFF), n=721, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2884d
Writing block 2 (MTOT), n=721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2884d
Writing block 3 (GPOS), n=721, ptype=0, dtype=1, ndim=3, bpb=4 bytes=8652d
Writing block 4 (MMEA), n=721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2884d
Writing block 5 (RMEA), n=721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2884d
Writing block 6 (MCRI), n=721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2884d
Writing block 7 (RCRI), n=721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2884d
Writing block 8 (MTOP), n=721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2884d
Writing block 9 (RTOP), n=721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2884d
Writing block 17 (NCON), n=721, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2884d
Writing block 18 (MCON), n=721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2884d
Writing block 22 (NSUB), n=721, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2884d
Writing block 23 (FSUB), n=721, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2884d
Writing block 24 (SLEN), n=7579, ptype=1, dtype=0, ndim=1, bpb=4 bytes=30316d
Writing block 25 (SOFF), n=7579, ptype=1, dtype=0, ndim=1, bpb=4 bytes=30316d
Writing block 27 (MSUB), n=7579, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 28 (SPOS), n=7579, ptype=1, dtype=1, ndim=3, bpb=4 bytes=90948d
Writing block 29 (SVEL), n=7579, ptype=1, dtype=1, ndim=3, bpb=4 bytes=90948d
Writing block 30 (SCM ), n=7579, ptype=1, dtype=1, ndim=3, bpb=4 bytes=90948d
Writing block 33 (VMAX), n=7579, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 34 (RMAX), n=7579, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 35 (RHMS), n=7579, ptype=1, dtype=1, ndim=6, bpb=4 bytes=181896d
Writing block 36 (MTRH), n=7579, ptype=1, dtype=1, ndim=6, bpb=4 bytes=181896d
Writing block 37 (MBID), n=7579, ptype=1, dtype=2, ndim=1, bpb=8 bytes=60632d
Writing block 38 (GRNR), n=7579, ptype=1, dtype=0, ndim=1, bpb=4 bytes=30316d
Writing block 39 (SUBN), n=7579, ptype=1, dtype=0, ndim=1, bpb=4 bytes=30316d
Writing block 40 (SMST), n=7579, ptype=1, dtype=1, ndim=6, bpb=4 bytes=181896d
Writing block 53 (PID ), n=559798, ptype=2, dtype=2, ndim=1, bpb=8 bytes=4478384d
Writing block 54 (SLEN), n=7579, ptype=1, dtype=0, ndim=6, bpb=4 bytes=181896d
Writing block 55 (STEN), n=7579, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 56 (SKEN), n=7579, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 57 (SUEN), n=7579, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 58 (SUIT), n=7579, ptype=1, dtype=1, ndim=9, bpb=4 bytes=272844d
Writing block 59 (BHMA), n=7579, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 60 (BHMD), n=7579, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 61 (SVD ), n=7579, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 62 (SVDH), n=7579, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 63 (HMPR), n=7579, ptype=1, dtype=1, ndim=6, bpb=4 bytes=181896d
Writing block 64 (SSFR), n=7579, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 65 (SSA ), n=7579, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 66 (SSBZ), n=7579, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 67 (SSIM), n=7579, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 68 (SSPI), n=7579, ptype=4, dtype=1, ndim=3, bpb=4 bytes=90948d
Writing block 69 (GSPI), n=7579, ptype=1, dtype=1, ndim=3, bpb=4 bytes=90948d
Writing block 70 (FSPI), n=7579, ptype=5, dtype=1, ndim=3, bpb=4 bytes=90948d
Writing block 71 (SFM ), n=7579, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 72 (SFMT), n=7579, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 73 (SFME), n=7579, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 74 (SFAE), n=7579, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 75 (SFKE), n=7579, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 76 (SFTE), n=7579, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 77 (SMWP), n=7579, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 78 (SMM ), n=7579, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 79 (SMMS), n=7579, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 80 (SFZ ), n=7579, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 81 (SFZS), n=7579, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 82 (SSIA), n=7579, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 83 (SIAS), n=7579, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 84 (SMET), n=7579, ptype=5, dtype=1, ndim=9, bpb=4 bytes=272844d
Writing block 85 (SMTS), n=7579, ptype=5, dtype=1, ndim=9, bpb=4 bytes=272844d
Writing block 86 (MF1 ), n=7579, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 87 (MeF1), n=7579, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 88 (MF  ), n=7579, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 89 (MeF2), n=7579, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 90 (MFA ), n=7579, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 91 (MeFA), n=7579, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 92 (NSPI), n=7579, ptype=6, dtype=1, ndim=3, bpb=4 bytes=90948d
Writing block 93 (NFM ), n=7579, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 94 (NFMT), n=7579, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 95 (NFME), n=7579, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 96 (NFAE), n=7579, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 97 (NFKE), n=7579, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 98 (NFTE), n=7579, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 99 (SMWP), n=7579, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 100 (SMM ), n=7579, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 101 (SMMS), n=7579, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 102 (SSIA), n=7579, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 103 (SIAS), n=7579, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 104 (SMET), n=7579, ptype=6, dtype=1, ndim=9, bpb=4 bytes=272844d
Writing block 105 (SMTS), n=7579, ptype=6, dtype=1, ndim=9, bpb=4 bytes=272844d
Writing block 106 (MF1 ), n=7579, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 107 (MeF1), n=7579, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 108 (MF2 ), n=7579, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 109 (MeF2), n=7579, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 110 (MFA ), n=7579, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 111 (MeFA), n=7579, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 112 (SM  ), n=7579, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 113 (SFKE), n=7579, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 114 (SFAE), n=7579, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 115 (SMWP), n=7579, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 116 (SMM ), n=7579, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 117 (SMMS), n=7579, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 118 (SSIA), n=7579, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 119 (SIAS), n=7579, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 120 (SMET), n=7579, ptype=4, dtype=1, ndim=9, bpb=4 bytes=272844d
Writing block 121 (SMTS), n=7579, ptype=4, dtype=1, ndim=9, bpb=4 bytes=272844d
Writing block 122 (MF1 ), n=7579, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 123 (MeF1), n=7579, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 124 (MF2 ), n=7579, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 125 (MeF2), n=7579, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 126 (MFA ), n=7579, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 127 (MeFA), n=7579, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30316d
Writing block 128 (MMe5), n=721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2884d
Writing block 129 (RMe5), n=721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2884d
Writing block 130 (MCr5), n=721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2884d
Writing block 131 (RCr5), n=721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2884d
Writing block 132 (MMe2), n=721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2884d
Writing block 133 (RMe2), n=721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2884d
Writing block 134 (MCr2), n=721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2884d
Writing block 135 (RCr2), n=721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2884d
Writing block 136 (MAPT), n=7579, ptype=7, dtype=1, ndim=60, bpb=4 bytes=1818960d
Writing block 137 (SAPT), n=7579, ptype=8, dtype=1, ndim=10, bpb=4 bytes=303160d
Writing block 138 (VAPT), n=7579, ptype=9, dtype=1, ndim=10, bpb=4 bytes=303160d
Writing block 139 (BEGY), n=559798, ptype=2, dtype=1, ndim=1, bpb=4 bytes=2239192d
Subgroup catalogues saved. took = 7.88869 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 6.561511e-01
 eagle_ph_key_ort: type= 2 timed by volker 5.263805e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.305100e-02
 eagle_ph_key_ort: type= 4 timed by volker 4.305100e-02
 eagle_ph_key_ort: type= 5 timed by volker 4.305100e-02
 eagle_ph_key_ort: timing parallel sort = 7.588749e-01
 eagle_fetch_elements: we are using 1441786585 bytes of memory, FreeBytes= 1802233232

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 3731.26 Mbyte (on task=0), Smallest = 1316.14 Mbyte, Average = 1358.27 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      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 2977 0   sort_index_data     24.5282    3731.2565  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1685322 number of bytes = 539303040

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 5106.23 Mbyte (on task=0), Smallest = 2691.04 Mbyte, Average = 2733.12 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      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 2977 0   sort_index_data     24.5282    3731.2565  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      6.4290    3737.6854  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      6.4290    3744.1144  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      6.4290    3750.5434  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    514.3195    4264.8629  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    514.3195    4779.1824  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    327.0422    5106.2246  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.117778e+00
 eagle_fetch_elements: we are using 1441786585 bytes of memory, FreeBytes= 1802233232
 eagle_fetch_elements: max_bytes= 504, max_elements= 1413516 number of bytes = 712412064
 eagle_ph_key_ort: timing parallel SphP exchange = 6.747007e-03
 eagle_fetch_elements: we are using 1441786585 bytes of memory, FreeBytes= 1802233232
 eagle_fetch_elements: max_bytes= 384, max_elements= 1848444 number of bytes = 709802496
 eagle_ph_key_ort: timing parallel MetP exchange = 3.981590e-04
 eagle_fetch_elements: we are using 1441786585 bytes of memory, FreeBytes= 1802233232
 eagle_fetch_elements: max_bytes= 256, max_elements= 2751501 number of bytes = 704384256
 eagle_ph_key_ort: timing parallel BHP exchange = 4.100800e-04
Sorting particle-data by peano-hilbert key took = 3.26481 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1441786585 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1685322 number of bytes= 539303040
 eagle_ph_restore: timing parallel P exchange = 2.033595e+00
 eagle_send_elements: we are using 1441786585 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1413516 number of bytes= 712412064
 eagle_ph_restore: timing parallel SphP exchange = 6.179094e-03
 eagle_send_elements: we are using 1441786585 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1848444 number of bytes= 709802496
 eagle_ph_restore: timing parallel MetP exchange = 6.151199e-04
 eagle_send_elements: we are using 1441786585 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 2751501 number of bytes= 704384256
 eagle_ph_restore: timing parallel BHP exchange = 7.181168e-04
Restoring original order after ph key sorting took = 2.05788 sec

finished writing particle file...

Finished with SUBFIND.  (total time=5431.03 sec)

Finished computing FoF groups.  (presently allocated=1202.97 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=180097
After=200465
NTopleaves= 175407  NTopnodes=200465 (space for 244687)
gravity work-load balance=1.00062   memory-balance=1.00062   SPH work-load balance=0
iter=0 exchange of 0273461731 particles (ret=0)
domain decomposition done. (took 3.65411 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.02432 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
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 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


 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
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


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 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 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
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 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


 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 = 5522.8 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
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
 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 =   63013.71 Mb (on task=253), Smallest =   62735.11 Mb (on task=0), Average =   62809.98 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=88), Smallest =   64531.98 Mb (on task=121), Average =   64532.08 Mb
Committed_AS:	 Largest =    1796.96 Mb (on task=0), Smallest =    1518.35 Mb (on task=253), Average =    1722.11 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16358.93 Mb (on task=165), Smallest =   16262.80 Mb (on task=33), Average =   16337.65 Mb
AllocMem:	 Largest =    1796.96 Mb (on task=0), Smallest =    1518.35 Mb (on task=253), Average =    1722.11 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin052

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.N11':
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                         5450
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=3.67791 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 10.1615 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.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities 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...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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...

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 3.43619 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 9.01201 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 7.28765 sec)
have done 0000444218 cross links (processed 0056090989, took 6.31002 sec)
have done 0000326531 cross links (processed 0047793032, took 4.37189 sec)
have done 0000232069 cross links (processed 0036321600, took 5.63334 sec)
have done 0000165432 cross links (processed 0026369406, took 6.23959 sec)
have done 0000115385 cross links (processed 0018722544, took 5.73038 sec)
have done 0000080074 cross links (processed 0013777664, took 5.9211 sec)
have done 0000053135 cross links (processed 0008603018, took 4.25124 sec)
have done 0000034352 cross links (processed 0004300372, took 3.54026 sec)
have done 0000022128 cross links (processed 0002608634, took 1.18898 sec)
have done 0000017531 cross links (processed 0002839270, took 2.44784 sec)
have done 0000014846 cross links (processed 0002109019, took 2.76577 sec)
have done 0000010178 cross links (processed 0000672627, took 1.50689 sec)
have done 0000005341 cross links (processed 0000292972, took 0.691007 sec)
have done 0000002477 cross links (processed 0000124175, took 0.560228 sec)
have done 0000001118 cross links (processed 0000015108, took 0.0464869 sec)
have done 0000000657 cross links (processed 0000016340, took 0.0828152 sec)
have done 0000000390 cross links (processed 0000012318, took 0.082514 sec)
have done 0000000161 cross links (processed 0000002834, took 0.045465 sec)
have done 0000000082 cross links (processed 0000001766, took 0.045455 sec)
have done 0000000042 cross links (processed 0000000960, took 0.0453331 sec)
have done 0000000025 cross links (processed 0000000229, took 0.0446692 sec)
have done 0000000015 cross links (processed 0000000130, took 0.0446181 sec)
have done 0000000011 cross links (processed 0000000099, took 0.044523 sec)
have done 0000000005 cross links (processed 0000000085, took 0.0445321 sec)
have done 0000000001 cross links (processed 0000000026, took 0.0445092 sec)
have done 0000000000 cross links (processed 0000000004, took 0.0444708 sec)
Local groups found.

group finding took = 68.2094 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 = 0.109155 sec
compiling local group data and catalogue took = 0.593275 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 = 0.078115 sec
start global sorting of group catalogues number 27
LargestGroup = 16478.926065; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.051415 sec
Group catalogues globally sorted. took = 0.730448 sec
starting saving of group catalogue number 27
data//groups_027_z000p073
Group catalogues number 27 saved. took = 2.54959 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.675944 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.267826 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.67214 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0193478383 particles. (took 19.6798 sec)
ngb iteration 2: need to repeat for 0149802674 particles. (took 9.95765 sec)
ngb iteration 3: need to repeat for 0131287624 particles. (took 7.14032 sec)
ngb iteration 4: need to repeat for 0119216681 particles. (took 5.88749 sec)
ngb iteration 5: need to repeat for 0106275005 particles. (took 5.12669 sec)
ngb iteration 6: need to repeat for 0088319125 particles. (took 4.45444 sec)
ngb iteration 7: need to repeat for 0066364554 particles. (took 3.75828 sec)
ngb iteration 8: need to repeat for 0045300768 particles. (took 2.93943 sec)
ngb iteration 9: need to repeat for 0028712063 particles. (took 2.13421 sec)
ngb iteration 10: need to repeat for 0017318539 particles. (took 1.47352 sec)
ngb iteration 11: need to repeat for 0010141942 particles. (took 0.965809 sec)
ngb iteration 12: need to repeat for 0005854881 particles. (took 0.621382 sec)
ngb iteration 13: need to repeat for 0003370664 particles. (took 0.379299 sec)
ngb iteration 14: need to repeat for 0001840809 particles. (took 0.250762 sec)
ngb iteration 15: need to repeat for 0000875429 particles. (took 0.164507 sec)
ngb iteration 16: need to repeat for 0000461089 particles. (took 0.0998819 sec)
ngb iteration 17: need to repeat for 0000256343 particles. (took 0.0729182 sec)
ngb iteration 18: need to repeat for 0000145828 particles. (took 0.0600982 sec)
ngb iteration 19: need to repeat for 0000082610 particles. (took 0.052439 sec)
ngb iteration 20: need to repeat for 0000045998 particles. (took 0.0476809 sec)
ngb iteration 21: need to repeat for 0000024967 particles. (took 0.044734 sec)
ngb iteration 22: need to repeat for 0000012889 particles. (took 0.043 sec)
ngb iteration 23: need to repeat for 0000006447 particles. (took 0.0417809 sec)
ngb iteration 24: need to repeat for 0000003073 particles. (took 0.0422809 sec)
ngb iteration 25: need to repeat for 0000001471 particles. (took 0.0415318 sec)
ngb iteration 26: need to repeat for 0000000666 particles. (took 0.0418131 sec)
ngb iteration 27: need to repeat for 0000000281 particles. (took 0.041465 sec)
ngb iteration 28: need to repeat for 0000000110 particles. (took 0.040916 sec)
ngb iteration 29: need to repeat for 0000000045 particles. (took 0.041724 sec)
ngb iteration 30: need to repeat for 0000000015 particles. (took 0.0414748 sec)
ngb iteration 31: need to repeat for 0000000005 particles. (took 0.040993 sec)
ngb iteration 32: need to repeat for 0000000004 particles. (took 0.0415142 sec)
ngb iteration 33: need to repeat for 0000000002 particles. (took 0.040621 sec)
final operations ... 
density and smoothing length for species 1 took 66.1746 sec
Tree construction.
tree build took 0.677205 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.266063 sec
Tree construction.
tree build took 0.684504 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.268931 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.130015 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.91977 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.673638 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.128526 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.9157 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.166846 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.90704 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.835802 sec
saving densities took 3.31917 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 1.4428 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 1.00246 sec)
Freed 3.44156 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 4075.15 Mbyte (on task=0), Smallest = 1799.26 Mbyte, Average = 1840.46 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      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
   0 2982 0     Extnodes_base    213.1772    4045.8989  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9498    4060.8487  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    4075.1519  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.41317 sec  (presently allocated=4075.15 MB)
force_treebuild() took 1.56959 sec (presently allocated=4075.15 MB)
Start find_linkngb (81514 particles on task=0)
find linkngb iteration 1: need to repeat for 0018677355 particles. (took 1.63726 sec)
find linkngb iteration 2: need to repeat for 0016527858 particles. (took 1.0996 sec)
find linkngb iteration 3: need to repeat for 0015741063 particles. (took 0.797855 sec)
find linkngb iteration 4: need to repeat for 0013667213 particles. (took 0.833942 sec)
find linkngb iteration 5: need to repeat for 0011320059 particles. (took 0.721481 sec)
find linkngb iteration 6: need to repeat for 0008184572 particles. (took 0.606813 sec)
find linkngb iteration 7: need to repeat for 0005146579 particles. (took 0.437938 sec)
find linkngb iteration 8: need to repeat for 0002925308 particles. (took 0.272135 sec)
find linkngb iteration 9: need to repeat for 0001566475 particles. (took 0.160653 sec)
find linkngb iteration 10: need to repeat for 0000811761 particles. (took 0.0924008 sec)
find linkngb iteration 11: need to repeat for 0000412268 particles. (took 0.0565059 sec)
find linkngb iteration 12: need to repeat for 0000086839 particles. (took 0.0323608 sec)
find linkngb iteration 13: need to repeat for 0000001972 particles. (took 0.0115519 sec)
find linkngb iteration 14: need to repeat for 0000000687 particles. (took 0.00105691 sec)
find linkngb iteration 15: need to repeat for 0000000259 particles. (took 0.000660896 sec)
find linkngb iteration 16: need to repeat for 0000000090 particles. (took 0.000588894 sec)
find linkngb iteration 17: need to repeat for 0000000027 particles. (took 0.000519991 sec)
find linkngb iteration 18: need to repeat for 0000000012 particles. (took 0.000535965 sec)
find linkngb iteration 19: need to repeat for 0000000006 particles. (took 0.000537872 sec)
find linkngb iteration 20: need to repeat for 0000000002 particles. (took 0.000495911 sec)
find_linkngb() took 6.76704 sec
Start finding nearest two (81514 particles on task=0)
find_nearesttwo() took 1.19239 sec (presently allocated=4081.37 MB)
parallel sort of densities done. took 0.112065 sec
building distributed linked list. (presently allocated 4080.56 MB)
identification of primary candidates took 524.335 sec
adding background as candidate took 0.166767 sec
establishing of rank order took 150.562 sec  (p=20934414, grouplen=20934414) presently allocated 4080.56 MB

total number of subhalo candidates=102976

number of subhalo candidates that can be done independently=89844.
(Largest size is 6069, finding them took 0.0707221 sec)
particles are marked (took 120.756)
independent subhalos are assembled on individual CPUs for unbinding (0.216609 sec, (presently allocated=4080.56 MB)
unbinding of independent ones took 0.148559 sec
particles have returned to their original processor (0.270983 sec, presently allocated 4080.56 MB)

number of subhalo candidates that can be done independently=12122.
(Largest size is 47452, finding them took 0.827558 sec)
particles are marked (took 82.5071)
independent subhalos are assembled on individual CPUs for unbinding (0.184884 sec, (presently allocated=4080.56 MB)
unbinding of independent ones took 1.70932 sec
particles have returned to their original processor (0.236898 sec, presently allocated 4080.56 MB)

number of subhalo candidates that can be done independently=943.
(Largest size is 81550, finding them took 0.799312 sec)
particles are marked (took 62.5437)
independent subhalos are assembled on individual CPUs for unbinding (0.163683 sec, (presently allocated=4080.56 MB)
unbinding of independent ones took 2.09879 sec
particles have returned to their original processor (0.21735 sec, presently allocated 4080.56 MB)

number of subhalo candidates that can be done independently=57.
(Largest size is 288897, finding them took 0.894642 sec)
particles are marked (took 57.1114)
independent subhalos are assembled on individual CPUs for unbinding (0.17861 sec, (presently allocated=4080.56 MB)
unbinding of independent ones took 8.91825 sec
particles have returned to their original processor (0.235814 sec, presently allocated 4080.56 MB)

number of subhalo candidates that can be done independently=5.
(Largest size is 5788611, finding them took 0.620926 sec)
too big candidates, I do the rest collectively

collective unbinding of nr=0 (10) of length=1719 ... maximum alloacted 4080.87 MB
took 0.841031 sec
collective unbinding of nr=1 (10) of length=202729 ... maximum alloacted 4080.87 MB
took 4.80099 sec
collective unbinding of nr=2 (10) of length=44911 ... maximum alloacted 4080.87 MB
took 3.51852 sec
collective unbinding of nr=3 (10) of length=199135 ... maximum alloacted 4080.87 MB
took 4.08909 sec
collective unbinding of nr=4 (10) of length=5510 ... maximum alloacted 4080.87 MB
took 1.40383 sec
collective unbinding of nr=5 (10) of length=5788611 ... maximum alloacted 4080.87 MB
took 89.3123 sec
collective unbinding of nr=6 (10) of length=288897 ... maximum alloacted 4080.87 MB
took 5.7476 sec
collective unbinding of nr=7 (10) of length=10200 ... maximum alloacted 4080.87 MB
took 1.72952 sec
collective unbinding of nr=8 (10) of length=5853 ... maximum alloacted 4080.87 MB
took 1.30192 sec
collective unbinding of nr=9 (10) of length=20934414 ... maximum alloacted 4080.87 MB
took 345.585 sec

the collective unbinding of remaining halos took 504.205 sec

found 6398 bound substructures in FoF group of length 20934414
determination of parent subhalo took 0.0930672 sec (presently allocated 4080.87 MB)
determining substructure properties took 449.157 sec (presently allocated 4080.87 MB)

collectively doing halo 2, 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)
Before=130801
After=163185
NTopleaves= 142787  NTopnodes=163185 (space for 244687)
gravity work-load balance=1.00056   memory-balance=1.00056   SPH work-load balance=0
iter=0 exchange of 0011982695 particles (ret=0)
domain decomposition done. (took 0.902524 sec)
Freed 3.73087 MByte in top-level domain structure
coldomain_Decomposition() took 1.31211 sec  (presently allocated=4073.73 MB)
force_treebuild() took 1.53294 sec (presently allocated=4073.73 MB)
Start find_linkngb (46808 particles on task=0)
find linkngb iteration 1: need to repeat for 0011444254 particles. (took 0.903071 sec)
find linkngb iteration 2: need to repeat for 0010465556 particles. (took 0.637514 sec)
find linkngb iteration 3: need to repeat for 0009978459 particles. (took 0.437771 sec)
find linkngb iteration 4: need to repeat for 0008729687 particles. (took 0.49162 sec)
find linkngb iteration 5: need to repeat for 0007250446 particles. (took 0.422007 sec)
find linkngb iteration 6: need to repeat for 0005250974 particles. (took 0.350082 sec)
find linkngb iteration 7: need to repeat for 0003303382 particles. (took 0.249738 sec)
find linkngb iteration 8: need to repeat for 0001877682 particles. (took 0.156302 sec)
find linkngb iteration 9: need to repeat for 0001006481 particles. (took 0.094126 sec)
find linkngb iteration 10: need to repeat for 0000522106 particles. (took 0.055881 sec)
find linkngb iteration 11: need to repeat for 0000265973 particles. (took 0.0337799 sec)
find linkngb iteration 12: need to repeat for 0000056184 particles. (took 0.024791 sec)
find linkngb iteration 13: need to repeat for 0000001482 particles. (took 0.00887108 sec)
find linkngb iteration 14: need to repeat for 0000000510 particles. (took 0.0008111 sec)
find linkngb iteration 15: need to repeat for 0000000203 particles. (took 0.000522852 sec)
find linkngb iteration 16: need to repeat for 0000000070 particles. (took 0.000468969 sec)
find linkngb iteration 17: need to repeat for 0000000021 particles. (took 0.000448942 sec)
find linkngb iteration 18: need to repeat for 0000000005 particles. (took 0.000512838 sec)
find linkngb iteration 19: need to repeat for 0000000001 particles. (took 0.000436068 sec)
find_linkngb() took 3.86986 sec
Start finding nearest two (46808 particles on task=0)
find_nearesttwo() took 0.680847 sec (presently allocated=4077.3 MB)
parallel sort of densities done. took 0.065887 sec
building distributed linked list. (presently allocated 4076.84 MB)
identification of primary candidates took 281.287 sec
adding background as candidate took 0.162048 sec
establishing of rank order took 89.2859 sec  (p=12033951, grouplen=12033951) presently allocated 4076.84 MB

total number of subhalo candidates=60388

number of subhalo candidates that can be done independently=52321.
(Largest size is 5558, finding them took 0.0168059 sec)
particles are marked (took 70.6175)
independent subhalos are assembled on individual CPUs for unbinding (0.183993 sec, (presently allocated=4076.84 MB)
unbinding of independent ones took 0.119478 sec
particles have returned to their original processor (0.237538 sec, presently allocated 4076.84 MB)

number of subhalo candidates that can be done independently=7406.
(Largest size is 29384, finding them took 0.788931 sec)
particles are marked (took 49.556)
independent subhalos are assembled on individual CPUs for unbinding (0.170004 sec, (presently allocated=4076.84 MB)
unbinding of independent ones took 0.952089 sec
particles have returned to their original processor (0.223032 sec, presently allocated 4076.84 MB)

number of subhalo candidates that can be done independently=609.
(Largest size is 46461, finding them took 0.770449 sec)
particles are marked (took 36.8626)
independent subhalos are assembled on individual CPUs for unbinding (0.15596 sec, (presently allocated=4076.84 MB)
unbinding of independent ones took 1.16497 sec
particles have returned to their original processor (0.210439 sec, presently allocated 4076.84 MB)

number of subhalo candidates that can be done independently=46.
(Largest size is 98454, finding them took 0.934854 sec)
particles are marked (took 32.0241)
independent subhalos are assembled on individual CPUs for unbinding (0.1465 sec, (presently allocated=4076.84 MB)
unbinding of independent ones took 4.73747 sec
particles have returned to their original processor (0.205721 sec, presently allocated 4076.84 MB)

number of subhalo candidates that can be done independently=4.
(Largest size is 169465, finding them took 0.414592 sec)
particles are marked (took 28.2565)
independent subhalos are assembled on individual CPUs for unbinding (0.154556 sec, (presently allocated=4076.84 MB)
unbinding of independent ones took 0.349607 sec
particles have returned to their original processor (0.198115 sec, presently allocated 4076.84 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 169465, finding them took 0.436898 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=169465 ... maximum alloacted 4077.02 MB
took 3.56551 sec
collective unbinding of nr=1 (2) of length=12033951 ... maximum alloacted 4077.02 MB
took 195.635 sec

the collective unbinding of remaining halos took 226.131 sec

found 3967 bound substructures in FoF group of length 12033951
determination of parent subhalo took 0.041502 sec (presently allocated 4077.02 MB)
determining substructure properties took 225.191 sec (presently allocated 4077.02 MB)

collectively doing halo 3, 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)
Before=140865
After=164985
NTopleaves= 144362  NTopnodes=164985 (space for 244687)
gravity work-load balance=1.00054   memory-balance=1.00054   SPH work-load balance=0
iter=0 exchange of 0005787515 particles (ret=0)
domain decomposition done. (took 0.862099 sec)
Freed 3.64847 MByte in top-level domain structure
coldomain_Decomposition() took 1.27499 sec  (presently allocated=4074.14 MB)
force_treebuild() took 1.5099 sec (presently allocated=4074.14 MB)
Start find_linkngb (22589 particles on task=0)
find linkngb iteration 1: need to repeat for 0005726489 particles. (took 0.417092 sec)
find linkngb iteration 2: need to repeat for 0005491196 particles. (took 0.289182 sec)
find linkngb iteration 3: need to repeat for 0005252272 particles. (took 0.200002 sec)
find linkngb iteration 4: need to repeat for 0004657316 particles. (took 0.226705 sec)
find linkngb iteration 5: need to repeat for 0003887673 particles. (took 0.195648 sec)
find linkngb iteration 6: need to repeat for 0002823024 particles. (took 0.161269 sec)
find linkngb iteration 7: need to repeat for 0001780706 particles. (took 0.116373 sec)
find linkngb iteration 8: need to repeat for 0001014329 particles. (took 0.075469 sec)
find linkngb iteration 9: need to repeat for 0000543672 particles. (took 0.048949 sec)
find linkngb iteration 10: need to repeat for 0000281956 particles. (took 0.029496 sec)
find linkngb iteration 11: need to repeat for 0000143298 particles. (took 0.0190349 sec)
find linkngb iteration 12: need to repeat for 0000030531 particles. (took 0.0129061 sec)
find linkngb iteration 13: need to repeat for 0000000997 particles. (took 0.006567 sec)
find linkngb iteration 14: need to repeat for 0000000371 particles. (took 0.00067091 sec)
find linkngb iteration 15: need to repeat for 0000000149 particles. (took 0.000466108 sec)
find linkngb iteration 16: need to repeat for 0000000059 particles. (took 0.000381947 sec)
find linkngb iteration 17: need to repeat for 0000000019 particles. (took 0.000353098 sec)
find linkngb iteration 18: need to repeat for 0000000002 particles. (took 0.000332117 sec)
find_linkngb() took 1.80176 sec
Start finding nearest two (22589 particles on task=0)
find_nearesttwo() took 0.338243 sec (presently allocated=4075.86 MB)
parallel sort of densities done. took 0.0446739 sec
building distributed linked list. (presently allocated 4075.64 MB)
identification of primary candidates took 142.447 sec
adding background as candidate took 0.159062 sec
establishing of rank order took 44.781 sec  (p=5804752, grouplen=5804752) presently allocated 4075.64 MB

total number of subhalo candidates=26537

number of subhalo candidates that can be done independently=23482.
(Largest size is 2002, finding them took 0.00717998 sec)
particles are marked (took 31.9524)
independent subhalos are assembled on individual CPUs for unbinding (0.15588 sec, (presently allocated=4075.64 MB)
unbinding of independent ones took 0.046916 sec
particles have returned to their original processor (0.209782 sec, presently allocated 4075.64 MB)

number of subhalo candidates that can be done independently=2785.
(Largest size is 10999, finding them took 0.76634 sec)
particles are marked (took 21.2874)
independent subhalos are assembled on individual CPUs for unbinding (0.15374 sec, (presently allocated=4075.64 MB)
unbinding of independent ones took 0.18062 sec
particles have returned to their original processor (0.208973 sec, presently allocated 4075.64 MB)

number of subhalo candidates that can be done independently=248.
(Largest size is 55103, finding them took 0.978114 sec)
particles are marked (took 17.2525)
independent subhalos are assembled on individual CPUs for unbinding (0.161897 sec, (presently allocated=4075.64 MB)
unbinding of independent ones took 2.97227 sec
particles have returned to their original processor (0.228927 sec, presently allocated 4075.64 MB)

number of subhalo candidates that can be done independently=18.
(Largest size is 71093, finding them took 0.754365 sec)
particles are marked (took 15.5927)
independent subhalos are assembled on individual CPUs for unbinding (0.150597 sec, (presently allocated=4075.64 MB)
unbinding of independent ones took 1.75601 sec
particles have returned to their original processor (0.219993 sec, presently allocated 4075.64 MB)

number of subhalo candidates that can be done independently=2.
(Largest size is 141684, finding them took 0.399541 sec)
particles are marked (took 14.4936)
independent subhalos are assembled on individual CPUs for unbinding (0.147878 sec, (presently allocated=4075.64 MB)
unbinding of independent ones took 4.1131 sec
particles have returned to their original processor (0.211622 sec, presently allocated 4075.64 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 88856, finding them took 0.395023 sec)
particles are marked (took 13.4944)
independent subhalos are assembled on individual CPUs for unbinding (0.147803 sec, (presently allocated=4075.64 MB)
unbinding of independent ones took 1.83624 sec
particles have returned to their original processor (0.21178 sec, presently allocated 4075.64 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 5804752, finding them took 0.375851 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=5804752 ... maximum alloacted 4075.72 MB
took 97.111 sec

the collective unbinding of remaining halos took 108.977 sec

found 2228 bound substructures in FoF group of length 5804752
determination of parent subhalo took 0.034214 sec (presently allocated 4075.72 MB)
determining substructure properties took 116.9 sec (presently allocated 4075.72 MB)

collectively doing halo 4, 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)
Before=140745
After=166897
NTopleaves= 146035  NTopnodes=166897 (space for 244687)
gravity work-load balance=1.00053   memory-balance=1.00053   SPH work-load balance=0
iter=0 exchange of 0004674287 particles (ret=0)
domain decomposition done. (took 0.855433 sec)
Freed 3.56094 MByte in top-level domain structure
coldomain_Decomposition() took 1.26952 sec  (presently allocated=4074.57 MB)
force_treebuild() took 1.50019 sec (presently allocated=4074.57 MB)
Start find_linkngb (18248 particles on task=0)
find linkngb iteration 1: need to repeat for 0004657256 particles. (took 0.33456 sec)
find linkngb iteration 2: need to repeat for 0004515251 particles. (took 0.226938 sec)
find linkngb iteration 3: need to repeat for 0004322870 particles. (took 0.159146 sec)
find linkngb iteration 4: need to repeat for 0003848018 particles. (took 0.17972 sec)
find linkngb iteration 5: need to repeat for 0003219479 particles. (took 0.154174 sec)
find linkngb iteration 6: need to repeat for 0002341620 particles. (took 0.127271 sec)
find linkngb iteration 7: need to repeat for 0001477244 particles. (took 0.093257 sec)
find linkngb iteration 8: need to repeat for 0000842369 particles. (took 0.062259 sec)
find linkngb iteration 9: need to repeat for 0000452134 particles. (took 0.0395389 sec)
find linkngb iteration 10: need to repeat for 0000234578 particles. (took 0.024904 sec)
find linkngb iteration 11: need to repeat for 0000119270 particles. (took 0.0162151 sec)
find linkngb iteration 12: need to repeat for 0000025753 particles. (took 0.011641 sec)
find linkngb iteration 13: need to repeat for 0000000852 particles. (took 0.00611091 sec)
find linkngb iteration 14: need to repeat for 0000000311 particles. (took 0.000545025 sec)
find linkngb iteration 15: need to repeat for 0000000117 particles. (took 0.000416994 sec)
find linkngb iteration 16: need to repeat for 0000000041 particles. (took 0.000362873 sec)
find linkngb iteration 17: need to repeat for 0000000012 particles. (took 0.000329971 sec)
find linkngb iteration 18: need to repeat for 0000000004 particles. (took 0.000349045 sec)
find linkngb iteration 19: need to repeat for 0000000002 particles. (took 0.000329018 sec)
find_linkngb() took 1.4389 sec
Start finding nearest two (18248 particles on task=0)
find_nearesttwo() took 0.275494 sec (presently allocated=4075.96 MB)
parallel sort of densities done. took 0.0406301 sec
building distributed linked list. (presently allocated 4075.78 MB)
identification of primary candidates took 115.684 sec
adding background as candidate took 0.160145 sec
establishing of rank order took 36.5392 sec  (p=4693050, grouplen=4693050) presently allocated 4075.78 MB

total number of subhalo candidates=21011

number of subhalo candidates that can be done independently=18758.
(Largest size is 2594, finding them took 0.00567913 sec)
particles are marked (took 25.4877)
independent subhalos are assembled on individual CPUs for unbinding (0.153678 sec, (presently allocated=4075.78 MB)
unbinding of independent ones took 0.0441298 sec
particles have returned to their original processor (0.207235 sec, presently allocated 4075.78 MB)

number of subhalo candidates that can be done independently=2075.
(Largest size is 9554, finding them took 0.753324 sec)
particles are marked (took 16.7727)
independent subhalos are assembled on individual CPUs for unbinding (0.151784 sec, (presently allocated=4075.78 MB)
unbinding of independent ones took 0.186333 sec
particles have returned to their original processor (0.207406 sec, presently allocated 4075.78 MB)

number of subhalo candidates that can be done independently=166.
(Largest size is 69861, finding them took 0.978564 sec)
particles are marked (took 14.7516)
independent subhalos are assembled on individual CPUs for unbinding (0.151233 sec, (presently allocated=4075.78 MB)
unbinding of independent ones took 1.77359 sec
particles have returned to their original processor (0.209483 sec, presently allocated 4075.78 MB)

number of subhalo candidates that can be done independently=8.
(Largest size is 33762, finding them took 0.566307 sec)
particles are marked (took 11.2416)
independent subhalos are assembled on individual CPUs for unbinding (0.143226 sec, (presently allocated=4075.78 MB)
unbinding of independent ones took 0.601169 sec
particles have returned to their original processor (0.201834 sec, presently allocated 4075.78 MB)

number of subhalo candidates that can be done independently=3.
(Largest size is 109782, finding them took 0.392091 sec)
particles are marked (took 12.4945)
independent subhalos are assembled on individual CPUs for unbinding (0.148595 sec, (presently allocated=4075.78 MB)
unbinding of independent ones took 7.84343 sec
particles have returned to their original processor (0.214766 sec, presently allocated 4075.78 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 4693050, finding them took 0.390128 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=4693050 ... maximum alloacted 4075.85 MB
took 80.1507 sec

the collective unbinding of remaining halos took 89.519 sec

found 1722 bound substructures in FoF group of length 4693050
determination of parent subhalo took 0.032217 sec (presently allocated 4075.85 MB)
determining substructure properties took 93.1479 sec (presently allocated 4075.85 MB)

collectively doing halo 5, 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)
Before=145761
After=168041
NTopleaves= 147036  NTopnodes=168041 (space for 244687)
gravity work-load balance=1.0004   memory-balance=1.0004   SPH work-load balance=0
iter=0 exchange of 0003298543 particles (ret=0)
domain decomposition done. (took 0.835786 sec)
Freed 3.50858 MByte in top-level domain structure
coldomain_Decomposition() took 1.25231 sec  (presently allocated=4074.82 MB)
force_treebuild() took 1.51451 sec (presently allocated=4074.82 MB)
Start find_linkngb (12945 particles on task=0)
find linkngb iteration 1: need to repeat for 0003302246 particles. (took 0.228054 sec)
find linkngb iteration 2: need to repeat for 0003239564 particles. (took 0.151458 sec)
find linkngb iteration 3: need to repeat for 0003106875 particles. (took 0.105743 sec)
find linkngb iteration 4: need to repeat for 0002782332 particles. (took 0.120847 sec)
find linkngb iteration 5: need to repeat for 0002334853 particles. (took 0.10404 sec)
find linkngb iteration 6: need to repeat for 0001702165 particles. (took 0.0880749 sec)
find linkngb iteration 7: need to repeat for 0001075370 particles. (took 0.0657921 sec)
find linkngb iteration 8: need to repeat for 0000612806 particles. (took 0.044524 sec)
find linkngb iteration 9: need to repeat for 0000329319 particles. (took 0.0287142 sec)
find linkngb iteration 10: need to repeat for 0000170729 particles. (took 0.018791 sec)
find linkngb iteration 11: need to repeat for 0000086992 particles. (took 0.0130451 sec)
find linkngb iteration 12: need to repeat for 0000019052 particles. (took 0.00969791 sec)
find linkngb iteration 13: need to repeat for 0000000661 particles. (took 0.00542188 sec)
find linkngb iteration 14: need to repeat for 0000000243 particles. (took 0.00054884 sec)
find linkngb iteration 15: need to repeat for 0000000099 particles. (took 0.000374079 sec)
find linkngb iteration 16: need to repeat for 0000000026 particles. (took 0.000351906 sec)
find linkngb iteration 17: need to repeat for 0000000009 particles. (took 0.000313997 sec)
find linkngb iteration 18: need to repeat for 0000000003 particles. (took 0.000313997 sec)
find_linkngb() took 0.986894 sec
Start finding nearest two (12945 particles on task=0)
find_nearesttwo() took 0.196694 sec (presently allocated=4075.81 MB)
parallel sort of densities done. took 0.037338 sec
building distributed linked list. (presently allocated 4075.68 MB)
identification of primary candidates took 83.3057 sec
adding background as candidate took 0.156371 sec
establishing of rank order took 26.6419 sec  (p=3313092, grouplen=3313092) presently allocated 4075.68 MB

total number of subhalo candidates=13817

number of subhalo candidates that can be done independently=12529.
(Largest size is 1837, finding them took 0.00386715 sec)
particles are marked (took 17.1331)
independent subhalos are assembled on individual CPUs for unbinding (0.147993 sec, (presently allocated=4075.68 MB)
unbinding of independent ones took 0.03002 sec
particles have returned to their original processor (0.203103 sec, presently allocated 4075.68 MB)

number of subhalo candidates that can be done independently=1209.
(Largest size is 23708, finding them took 0.761949 sec)
particles are marked (took 11.3162)
independent subhalos are assembled on individual CPUs for unbinding (0.151925 sec, (presently allocated=4075.68 MB)
unbinding of independent ones took 0.675528 sec
particles have returned to their original processor (0.210156 sec, presently allocated 4075.68 MB)

number of subhalo candidates that can be done independently=71.
(Largest size is 118158, finding them took 0.777648 sec)
particles are marked (took 11.0577)
independent subhalos are assembled on individual CPUs for unbinding (0.159112 sec, (presently allocated=4075.68 MB)
unbinding of independent ones took 4.3163 sec
particles have returned to their original processor (0.228671 sec, presently allocated 4075.68 MB)

number of subhalo candidates that can be done independently=7.
(Largest size is 92707, finding them took 0.403147 sec)
particles are marked (took 9.03511)
independent subhalos are assembled on individual CPUs for unbinding (0.156147 sec, (presently allocated=4075.68 MB)
unbinding of independent ones took 2.33454 sec
particles have returned to their original processor (0.227977 sec, presently allocated 4075.68 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 3313092, finding them took 0.404757 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=3313092 ... maximum alloacted 4075.73 MB
took 59.022 sec

the collective unbinding of remaining halos took 65.2044 sec

found 1271 bound substructures in FoF group of length 3313092
determination of parent subhalo took 0.0744629 sec (presently allocated 4075.73 MB)
determining substructure properties took 68.0569 sec (presently allocated 4075.73 MB)

collectively doing halo 6, 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)
Before=144953
After=167121
NTopleaves= 146231  NTopnodes=167121 (space for 244687)
gravity work-load balance=1.00057   memory-balance=1.00057   SPH work-load balance=0
iter=0 exchange of 0002957615 particles (ret=0)
domain decomposition done. (took 0.848029 sec)
Freed 3.55069 MByte in top-level domain structure
coldomain_Decomposition() took 1.26336 sec  (presently allocated=4074.62 MB)
force_treebuild() took 1.50316 sec (presently allocated=4074.62 MB)
Start find_linkngb (11588 particles on task=0)
find linkngb iteration 1: need to repeat for 0002961081 particles. (took 0.206104 sec)
find linkngb iteration 2: need to repeat for 0002908287 particles. (took 0.131802 sec)
find linkngb iteration 3: need to repeat for 0002789876 particles. (took 0.108452 sec)
find linkngb iteration 4: need to repeat for 0002501965 particles. (took 0.144365 sec)
find linkngb iteration 5: need to repeat for 0002098476 particles. (took 0.091192 sec)
find linkngb iteration 6: need to repeat for 0001529384 particles. (took 0.0765572 sec)
find linkngb iteration 7: need to repeat for 0000966887 particles. (took 0.0588861 sec)
find linkngb iteration 8: need to repeat for 0000551160 particles. (took 0.041079 sec)
find linkngb iteration 9: need to repeat for 0000295777 particles. (took 0.0266521 sec)
find linkngb iteration 10: need to repeat for 0000153741 particles. (took 0.0180039 sec)
find linkngb iteration 11: need to repeat for 0000078188 particles. (took 0.012747 sec)
find linkngb iteration 12: need to repeat for 0000017239 particles. (took 0.0092392 sec)
find linkngb iteration 13: need to repeat for 0000000651 particles. (took 0.00534105 sec)
find linkngb iteration 14: need to repeat for 0000000227 particles. (took 0.000519037 sec)
find linkngb iteration 15: need to repeat for 0000000086 particles. (took 0.000349998 sec)
find linkngb iteration 16: need to repeat for 0000000036 particles. (took 0.00031805 sec)
find linkngb iteration 17: need to repeat for 0000000013 particles. (took 0.000305176 sec)
find linkngb iteration 18: need to repeat for 0000000003 particles. (took 0.000299931 sec)
find_linkngb() took 0.932978 sec
Start finding nearest two (11588 particles on task=0)
find_nearesttwo() took 0.173233 sec (presently allocated=4075.5 MB)
parallel sort of densities done. took 0.03513 sec
building distributed linked list. (presently allocated 4075.39 MB)
identification of primary candidates took 77.5507 sec
adding background as candidate took 0.158799 sec
establishing of rank order took 24.7081 sec  (p=2968672, grouplen=2968672) presently allocated 4075.39 MB

total number of subhalo candidates=12142

number of subhalo candidates that can be done independently=10955.
(Largest size is 2588, finding them took 0.00353408 sec)
particles are marked (took 15.001)
independent subhalos are assembled on individual CPUs for unbinding (0.147352 sec, (presently allocated=4075.39 MB)
unbinding of independent ones took 0.0448339 sec
particles have returned to their original processor (0.202098 sec, presently allocated 4075.39 MB)

number of subhalo candidates that can be done independently=1097.
(Largest size is 30733, finding them took 0.74965 sec)
particles are marked (took 10.1636)
independent subhalos are assembled on individual CPUs for unbinding (0.151187 sec, (presently allocated=4075.39 MB)
unbinding of independent ones took 1.00269 sec
particles have returned to their original processor (0.225589 sec, presently allocated 4075.39 MB)

number of subhalo candidates that can be done independently=78.
(Largest size is 214457, finding them took 0.913207 sec)
particles are marked (took 8.56976)
independent subhalos are assembled on individual CPUs for unbinding (0.152581 sec, (presently allocated=4075.39 MB)
unbinding of independent ones took 1.42276 sec
particles have returned to their original processor (0.216744 sec, presently allocated 4075.39 MB)

number of subhalo candidates that can be done independently=9.
(Largest size is 214457, finding them took 0.402266 sec)
particles are marked (took 9.47116)
independent subhalos are assembled on individual CPUs for unbinding (0.155835 sec, (presently allocated=4075.39 MB)
unbinding of independent ones took 3.03036 sec
particles have returned to their original processor (0.22208 sec, presently allocated 4075.39 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 214457, finding them took 0.402618 sec)
particles are marked (took 5.91865)
independent subhalos are assembled on individual CPUs for unbinding (0.140934 sec, (presently allocated=4075.39 MB)
unbinding of independent ones took 0.0976908 sec
particles have returned to their original processor (0.196809 sec, presently allocated 4075.39 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 214457, finding them took 0.364364 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=214457 ... maximum alloacted 4075.43 MB
took 4.47216 sec
collective unbinding of nr=1 (2) of length=2968672 ... maximum alloacted 4075.43 MB
took 49.9848 sec

the collective unbinding of remaining halos took 59.8927 sec

found 1117 bound substructures in FoF group of length 2968672
determination of parent subhalo took 0.0256 sec (presently allocated 4075.43 MB)
determining substructure properties took 63.3632 sec (presently allocated 4075.43 MB)

collectively doing halo 7, 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)
Before=143721
After=165393
NTopleaves= 144719  NTopnodes=165393 (space for 244687)
gravity work-load balance=1.00047   memory-balance=1.00047   SPH work-load balance=0
iter=0 exchange of 0002743935 particles (ret=0)
domain decomposition done. (took 0.842804 sec)
Freed 3.62979 MByte in top-level domain structure
coldomain_Decomposition() took 1.25942 sec  (presently allocated=4074.23 MB)
force_treebuild() took 1.51287 sec (presently allocated=4074.23 MB)
Start find_linkngb (10764 particles on task=0)
find linkngb iteration 1: need to repeat for 0002749721 particles. (took 0.195477 sec)
find linkngb iteration 2: need to repeat for 0002705259 particles. (took 0.125401 sec)
find linkngb iteration 3: need to repeat for 0002596760 particles. (took 0.0888989 sec)
find linkngb iteration 4: need to repeat for 0002331502 particles. (took 0.100966 sec)
find linkngb iteration 5: need to repeat for 0001958281 particles. (took 0.0869732 sec)
find linkngb iteration 6: need to repeat for 0001428541 particles. (took 0.0726089 sec)
find linkngb iteration 7: need to repeat for 0000903138 particles. (took 0.054975 sec)
find linkngb iteration 8: need to repeat for 0000515544 particles. (took 0.0377111 sec)
find linkngb iteration 9: need to repeat for 0000276687 particles. (took 0.024734 sec)
find linkngb iteration 10: need to repeat for 0000143748 particles. (took 0.0168669 sec)
find linkngb iteration 11: need to repeat for 0000073150 particles. (took 0.012219 sec)
find linkngb iteration 12: need to repeat for 0000016172 particles. (took 0.00958681 sec)
find linkngb iteration 13: need to repeat for 0000000580 particles. (took 0.0052259 sec)
find linkngb iteration 14: need to repeat for 0000000205 particles. (took 0.000468969 sec)
find linkngb iteration 15: need to repeat for 0000000069 particles. (took 0.000363111 sec)
find linkngb iteration 16: need to repeat for 0000000026 particles. (took 0.000315905 sec)
find linkngb iteration 17: need to repeat for 0000000007 particles. (took 0.000323057 sec)
find linkngb iteration 18: need to repeat for 0000000001 particles. (took 0.00030303 sec)
find_linkngb() took 0.834188 sec
Start finding nearest two (10764 particles on task=0)
find_nearesttwo() took 0.163958 sec (presently allocated=4075.05 MB)
parallel sort of densities done. took 0.038857 sec
building distributed linked list. (presently allocated 4074.94 MB)
identification of primary candidates took 69.8433 sec
adding background as candidate took 0.158147 sec
establishing of rank order took 22.9471 sec  (p=2754554, grouplen=2754554) presently allocated 4074.94 MB

total number of subhalo candidates=11867

number of subhalo candidates that can be done independently=10681.
(Largest size is 1941, finding them took 0.00338507 sec)
particles are marked (took 14.6574)
independent subhalos are assembled on individual CPUs for unbinding (0.147932 sec, (presently allocated=4074.94 MB)
unbinding of independent ones took 0.0323141 sec
particles have returned to their original processor (0.202426 sec, presently allocated 4074.94 MB)

number of subhalo candidates that can be done independently=1112.
(Largest size is 10814, finding them took 0.772322 sec)
particles are marked (took 9.65109)
independent subhalos are assembled on individual CPUs for unbinding (0.148069 sec, (presently allocated=4074.94 MB)
unbinding of independent ones took 0.183971 sec
particles have returned to their original processor (0.206496 sec, presently allocated 4074.94 MB)

number of subhalo candidates that can be done independently=66.
(Largest size is 49566, finding them took 0.9195 sec)
particles are marked (took 8.23779)
independent subhalos are assembled on individual CPUs for unbinding (0.14897 sec, (presently allocated=4074.94 MB)
unbinding of independent ones took 1.11878 sec
particles have returned to their original processor (0.212099 sec, presently allocated 4074.94 MB)

number of subhalo candidates that can be done independently=6.
(Largest size is 37158, finding them took 0.407341 sec)
particles are marked (took 6.74264)
independent subhalos are assembled on individual CPUs for unbinding (0.150236 sec, (presently allocated=4074.94 MB)
unbinding of independent ones took 0.755184 sec
particles have returned to their original processor (0.214099 sec, presently allocated 4074.94 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 5643, finding them took 0.407282 sec)
particles are marked (took 5.68784)
independent subhalos are assembled on individual CPUs for unbinding (0.140951 sec, (presently allocated=4074.94 MB)
unbinding of independent ones took 0.0693169 sec
particles have returned to their original processor (0.198849 sec, presently allocated 4074.94 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 2754554, finding them took 0.362484 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=2754554 ... maximum alloacted 4074.98 MB
took 46.0988 sec

the collective unbinding of remaining halos took 51.416 sec

found 1033 bound substructures in FoF group of length 2754554
determination of parent subhalo took 0.0251901 sec (presently allocated 4074.98 MB)
determining substructure properties took 54.7257 sec (presently allocated 4074.98 MB)
processing of collective halos took 4937.17 sec
sort of local particles()() took 0.607426 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 268.197 sec

Task 255: testing particles ...
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Task 3: testing particles ...
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Task 118: testing particles ...
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Task 2: testing particles ...
Task 177: testing particles ...
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Task 224: testing particles ...
Task 89: testing particles ...
Task 215: testing particles ...
Task 191: testing particles ...
Task 192: testing particles ...
Task 53: testing particles ...
Task 238: testing particles ...
Task 161: testing particles ...
Task 1: testing particles ...
Task 221: testing particles ...
Task 189: testing particles ...
Task 247: testing particles ...
Task 103: testing particles ...
Task 213: testing particles ...
Task 43: testing particles ...
Task 188: testing particles ...
Task 201: testing particles ...
Task 227: testing particles ...
Task 138: testing particles ...
Task 168: testing particles ...
Task 199: testing particles ...
Task 145: testing particles ...
Task 234: testing particles ...
Task 54: testing particles ...
Task 90: testing particles ...
Task 246: testing particles ...
Task 5: testing particles ...
Task 194: testing particles ...
Task 165: testing particles ...
Task 148: testing particles ...
Task 176: testing particles ...
Task 212: testing particles ...
Task 99: testing particles ...
Task 203: testing particles ...
Task 113: testing particles ...
Task 132: testing particles ...
Task 244: testing particles ...
Task 225: testing particles ...
Task 182: testing particles ...
Task 179: testing particles ...
Task 211: testing particles ...
Task 134: testing particles ...
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Task 101: testing particles ...
Task 232: testing particles ...
Task 205: testing particles ...
Task 80: testing particles ...
Task 171: testing particles ...
Task 155: testing particles ...
Task 146: testing particles ...
Task 41: testing particles ...
Task 169: testing particles ...
Task 243: testing particles ...
Task 245: testing particles ...
Task 42: testing particles ...
Task 117: testing particles ...
Task 214: testing particles ...
Task 248: testing particles ...
Task 4: testing particles ...
Task 110: testing particles ...
Task 126: testing particles ...
Task 200: testing particles ...
Task 193: testing particles ...
Task 157: testing particles ...
unsorting of local particles()() took 0.566117 sec
Task 0: testing particles ...
Task 202: testing particles ...
Task 160: testing particles ...
Task 6: testing particles ...
Task 88: testing particles ...
Task 123: testing particles ...
Task 32: testing particles ...
Task 124: testing particles ...
Task 166: testing particles ...
Task 223: testing particles ...
Task 115: testing particles ...
Task 91: testing particles ...
Task 183: testing particles ...
Task 128: testing particles ...
Task 70: testing particles ...
Task 111: testing particles ...
Task 172: testing particles ...
Task 94: testing particles ...
Task 149: testing particles ...
Task 95: testing particles ...
Task 125: testing particles ...
Task 71: testing particles ...
Task 181: testing particles ...
Task 77: testing particles ...
Task 62: testing particles ...
Task 178: testing particles ...
Task 93: testing particles ...
Task 159: testing particles ...
Task 180: testing particles ...
Task 150: testing particles ...
Task 135: testing particles ...
Task 136: testing particles ...
Task 116: testing particles ...
Task 147: testing particles ...
Task 190: testing particles ...
Task 106: testing particles ...
Task 235: testing particles ...
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Task 231: testing particles ...
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Task 30: testing particles ...
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Task 69: testing particles ...
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Task 31: testing particles ...
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Task 10: testing particles ...
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Task 12: testing particles ...
Task 8: testing particles ...
Task 11: testing particles ...
Task 7: testing particles ...
subfind_exchange() (for return to original CPU)  took 2.88961 sec
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)
Before=186057
After=204705
NTopleaves= 179117  NTopnodes=204705 (space for 244687)
gravity work-load balance=1.0004   memory-balance=1.0004   SPH work-load balance=0
iter=0 exchange of 0273141155 particles (ret=0)
domain decomposition done. (took 3.51888 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.83023 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000150677 particles. (took 0.026108 sec)
SO iteration 2: need to repeat for 0000150677 particles. (took 0.0205472 sec)
SO iteration 3: need to repeat for 0000150677 particles. (took 0.020339 sec)
SO iteration 4: need to repeat for 0000150677 particles. (took 0.0205791 sec)
SO iteration 5: need to repeat for 0000150677 particles. (took 0.0593681 sec)
SO iteration 6: need to repeat for 0000150677 particles. (took 0.0332389 sec)
SO iteration 7: need to repeat for 0000150677 particles. (took 0.0203359 sec)
SO iteration 8: need to repeat for 0000150677 particles. (took 0.0493259 sec)
SO iteration 9: need to repeat for 0000150677 particles. (took 0.031198 sec)
SO iteration 10: need to repeat for 0000150677 particles. (took 0.0603609 sec)
SO iteration 11: need to repeat for 0000150677 particles. (took 0.036366 sec)
SO iteration 12: need to repeat for 0000150677 particles. (took 0.0204589 sec)
SO iteration 13: need to repeat for 0000150677 particles. (took 0.0203331 sec)
SO iteration 14: need to repeat for 0000150677 particles. (took 0.0203211 sec)
SO iteration 15: need to repeat for 0000150079 particles. (took 0.0203412 sec)
SO iteration 16: need to repeat for 0000000367 particles. (took 0.0197539 sec)
SO iteration 17: need to repeat for 0000000045 particles. (took 0.000962019 sec)
SO iteration 18: need to repeat for 0000000003 particles. (took 0.000613928 sec)
SO iteration 1: need to repeat for 0000150677 particles. (took 0.0205531 sec)
SO iteration 2: need to repeat for 0000150677 particles. (took 0.0183191 sec)
SO iteration 3: need to repeat for 0000150677 particles. (took 0.0191061 sec)
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SO iteration 15: need to repeat for 0000150527 particles. (took 0.0196669 sec)
SO iteration 16: need to repeat for 0000015004 particles. (took 0.0196359 sec)
SO iteration 17: need to repeat for 0000000247 particles. (took 0.0052681 sec)
SO iteration 18: need to repeat for 0000000036 particles. (took 0.000756979 sec)
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SO iteration 13: need to repeat for 0000150677 particles. (took 0.0172589 sec)
SO iteration 14: need to repeat for 0000150677 particles. (took 0.0171762 sec)
SO iteration 15: need to repeat for 0000150659 particles. (took 0.017241 sec)
SO iteration 16: need to repeat for 0000150621 particles. (took 0.0191491 sec)
SO iteration 17: need to repeat for 0000020974 particles. (took 0.01721 sec)
SO iteration 18: need to repeat for 0000000450 particles. (took 0.005445 sec)
SO iteration 19: need to repeat for 0000000062 particles. (took 0.000798941 sec)
SO iteration 20: need to repeat for 0000000001 particles. (took 0.000633001 sec)
SO iteration 1: need to repeat for 0000150677 particles. (took 0.020406 sec)
SO iteration 2: need to repeat for 0000150677 particles. (took 0.0182519 sec)
SO iteration 3: need to repeat for 0000150677 particles. (took 0.0212359 sec)
SO iteration 4: need to repeat for 0000150677 particles. (took 0.019618 sec)
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SO iteration 6: need to repeat for 0000150677 particles. (took 0.0195301 sec)
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SO iteration 15: need to repeat for 0000150361 particles. (took 0.020896 sec)
SO iteration 16: need to repeat for 0000002039 particles. (took 0.019217 sec)
SO iteration 17: need to repeat for 0000000094 particles. (took 0.00156403 sec)
SO iteration 18: need to repeat for 0000000006 particles. (took 0.000679016 sec)
SO iteration 1: need to repeat for 0000150677 particles. (took 0.0204799 sec)
SO iteration 2: need to repeat for 0000150677 particles. (took 0.0181968 sec)
SO iteration 3: need to repeat for 0000150677 particles. (took 0.0192451 sec)
SO iteration 4: need to repeat for 0000150677 particles. (took 0.0186961 sec)
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SO iteration 15: need to repeat for 0000150550 particles. (took 0.0188479 sec)
SO iteration 16: need to repeat for 0000025390 particles. (took 0.0185771 sec)
SO iteration 17: need to repeat for 0000000317 particles. (took 0.00708914 sec)
SO iteration 18: need to repeat for 0000000048 particles. (took 0.000911951 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.00061202 sec)
SO iteration 1: need to repeat for 0000150677 particles. (took 0.020509 sec)
SO iteration 2: need to repeat for 0000150677 particles. (took 0.0183349 sec)
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SO iteration 4: need to repeat for 0000150677 particles. (took 0.0178599 sec)
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SO iteration 15: need to repeat for 0000150649 particles. (took 0.0178781 sec)
SO iteration 16: need to repeat for 0000150540 particles. (took 0.0178869 sec)
SO iteration 17: need to repeat for 0000003303 particles. (took 0.0183041 sec)
SO iteration 18: need to repeat for 0000000206 particles. (took 0.001791 sec)
SO iteration 19: need to repeat for 0000000021 particles. (took 0.000649214 sec)
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SO iteration 2: need to repeat for 0000150677 particles. (took 0.0181489 sec)
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SO iteration 11: need to repeat for 0000150677 particles. (took 0.0163128 sec)
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SO iteration 13: need to repeat for 0000150677 particles. (took 0.016351 sec)
SO iteration 14: need to repeat for 0000150677 particles. (took 0.0161901 sec)
SO iteration 15: need to repeat for 0000150673 particles. (took 0.0162971 sec)
SO iteration 16: need to repeat for 0000150662 particles. (took 0.016212 sec)
SO iteration 17: need to repeat for 0000150639 particles. (took 0.0161848 sec)
SO iteration 18: need to repeat for 0000009276 particles. (took 0.016283 sec)
SO iteration 19: need to repeat for 0000000280 particles. (took 0.00296187 sec)
SO iteration 20: need to repeat for 0000000031 particles. (took 0.000671864 sec)
determining spherical overdensity masses took 2.34674 sec
finding spherical overdensity particles took 0.534548 sec
determining contamination of halos took 0.16843 sec
Global sort of Groups took 0.0912502 sec
Global sort of SubGroups took 0.315531 sec
Global sort of IDs took 0.472788 sec
Writing block 0 (GLEN), n=725, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2900d
Writing block 1 (GOFF), n=725, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2900d
Writing block 2 (MTOT), n=725, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2900d
Writing block 3 (GPOS), n=725, ptype=0, dtype=1, ndim=3, bpb=4 bytes=8700d
Writing block 4 (MMEA), n=725, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2900d
Writing block 5 (RMEA), n=725, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2900d
Writing block 6 (MCRI), n=725, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2900d
Writing block 7 (RCRI), n=725, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2900d
Writing block 8 (MTOP), n=725, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2900d
Writing block 9 (RTOP), n=725, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2900d
Writing block 17 (NCON), n=725, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2900d
Writing block 18 (MCON), n=725, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2900d
Writing block 22 (NSUB), n=725, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2900d
Writing block 23 (FSUB), n=725, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2900d
Writing block 24 (SLEN), n=7047, ptype=1, dtype=0, ndim=1, bpb=4 bytes=28188d
Writing block 25 (SOFF), n=7047, ptype=1, dtype=0, ndim=1, bpb=4 bytes=28188d
Writing block 27 (MSUB), n=7047, ptype=1, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 28 (SPOS), n=7047, ptype=1, dtype=1, ndim=3, bpb=4 bytes=84564d
Writing block 29 (SVEL), n=7047, ptype=1, dtype=1, ndim=3, bpb=4 bytes=84564d
Writing block 30 (SCM ), n=7047, ptype=1, dtype=1, ndim=3, bpb=4 bytes=84564d
Writing block 33 (VMAX), n=7047, ptype=1, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 34 (RMAX), n=7047, ptype=1, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 35 (RHMS), n=7047, ptype=1, dtype=1, ndim=6, bpb=4 bytes=169128d
Writing block 36 (MTRH), n=7047, ptype=1, dtype=1, ndim=6, bpb=4 bytes=169128d
Writing block 37 (MBID), n=7047, ptype=1, dtype=2, ndim=1, bpb=8 bytes=56376d
Writing block 38 (GRNR), n=7047, ptype=1, dtype=0, ndim=1, bpb=4 bytes=28188d
Writing block 39 (SUBN), n=7047, ptype=1, dtype=0, ndim=1, bpb=4 bytes=28188d
Writing block 40 (SMST), n=7047, ptype=1, dtype=1, ndim=6, bpb=4 bytes=169128d
Writing block 53 (PID ), n=572593, ptype=2, dtype=2, ndim=1, bpb=8 bytes=4580744d
Writing block 54 (SLEN), n=7047, ptype=1, dtype=0, ndim=6, bpb=4 bytes=169128d
Writing block 55 (STEN), n=7047, ptype=1, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 56 (SKEN), n=7047, ptype=1, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 57 (SUEN), n=7047, ptype=1, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 58 (SUIT), n=7047, ptype=1, dtype=1, ndim=9, bpb=4 bytes=253692d
Writing block 59 (BHMA), n=7047, ptype=1, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 60 (BHMD), n=7047, ptype=1, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 61 (SVD ), n=7047, ptype=1, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 62 (SVDH), n=7047, ptype=1, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 63 (HMPR), n=7047, ptype=1, dtype=1, ndim=6, bpb=4 bytes=169128d
Writing block 64 (SSFR), n=7047, ptype=1, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 65 (SSA ), n=7047, ptype=1, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 66 (SSBZ), n=7047, ptype=1, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 67 (SSIM), n=7047, ptype=1, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 68 (SSPI), n=7047, ptype=4, dtype=1, ndim=3, bpb=4 bytes=84564d
Writing block 69 (GSPI), n=7047, ptype=1, dtype=1, ndim=3, bpb=4 bytes=84564d
Writing block 70 (FSPI), n=7047, ptype=5, dtype=1, ndim=3, bpb=4 bytes=84564d
Writing block 71 (SFM ), n=7047, ptype=5, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 72 (SFMT), n=7047, ptype=5, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 73 (SFME), n=7047, ptype=5, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 74 (SFAE), n=7047, ptype=5, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 75 (SFKE), n=7047, ptype=5, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 76 (SFTE), n=7047, ptype=5, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 77 (SMWP), n=7047, ptype=5, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 78 (SMM ), n=7047, ptype=5, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 79 (SMMS), n=7047, ptype=5, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 80 (SFZ ), n=7047, ptype=5, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 81 (SFZS), n=7047, ptype=5, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 82 (SSIA), n=7047, ptype=5, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 83 (SIAS), n=7047, ptype=5, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 84 (SMET), n=7047, ptype=5, dtype=1, ndim=9, bpb=4 bytes=253692d
Writing block 85 (SMTS), n=7047, ptype=5, dtype=1, ndim=9, bpb=4 bytes=253692d
Writing block 86 (MF1 ), n=7047, ptype=5, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 87 (MeF1), n=7047, ptype=5, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 88 (MF  ), n=7047, ptype=5, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 89 (MeF2), n=7047, ptype=5, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 90 (MFA ), n=7047, ptype=5, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 91 (MeFA), n=7047, ptype=5, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 92 (NSPI), n=7047, ptype=6, dtype=1, ndim=3, bpb=4 bytes=84564d
Writing block 93 (NFM ), n=7047, ptype=6, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 94 (NFMT), n=7047, ptype=6, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 95 (NFME), n=7047, ptype=6, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 96 (NFAE), n=7047, ptype=6, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 97 (NFKE), n=7047, ptype=6, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 98 (NFTE), n=7047, ptype=6, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 99 (SMWP), n=7047, ptype=6, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 100 (SMM ), n=7047, ptype=6, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 101 (SMMS), n=7047, ptype=6, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 102 (SSIA), n=7047, ptype=6, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 103 (SIAS), n=7047, ptype=6, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 104 (SMET), n=7047, ptype=6, dtype=1, ndim=9, bpb=4 bytes=253692d
Writing block 105 (SMTS), n=7047, ptype=6, dtype=1, ndim=9, bpb=4 bytes=253692d
Writing block 106 (MF1 ), n=7047, ptype=6, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 107 (MeF1), n=7047, ptype=6, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 108 (MF2 ), n=7047, ptype=6, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 109 (MeF2), n=7047, ptype=6, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 110 (MFA ), n=7047, ptype=6, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 111 (MeFA), n=7047, ptype=6, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 112 (SM  ), n=7047, ptype=4, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 113 (SFKE), n=7047, ptype=4, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 114 (SFAE), n=7047, ptype=4, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 115 (SMWP), n=7047, ptype=4, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 116 (SMM ), n=7047, ptype=4, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 117 (SMMS), n=7047, ptype=4, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 118 (SSIA), n=7047, ptype=4, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 119 (SIAS), n=7047, ptype=4, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 120 (SMET), n=7047, ptype=4, dtype=1, ndim=9, bpb=4 bytes=253692d
Writing block 121 (SMTS), n=7047, ptype=4, dtype=1, ndim=9, bpb=4 bytes=253692d
Writing block 122 (MF1 ), n=7047, ptype=4, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 123 (MeF1), n=7047, ptype=4, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 124 (MF2 ), n=7047, ptype=4, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 125 (MeF2), n=7047, ptype=4, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 126 (MFA ), n=7047, ptype=4, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 127 (MeFA), n=7047, ptype=4, dtype=1, ndim=1, bpb=4 bytes=28188d
Writing block 128 (MMe5), n=725, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2900d
Writing block 129 (RMe5), n=725, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2900d
Writing block 130 (MCr5), n=725, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2900d
Writing block 131 (RCr5), n=725, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2900d
Writing block 132 (MMe2), n=725, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2900d
Writing block 133 (RMe2), n=725, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2900d
Writing block 134 (MCr2), n=725, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2900d
Writing block 135 (RCr2), n=725, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2900d
Writing block 136 (MAPT), n=7047, ptype=7, dtype=1, ndim=60, bpb=4 bytes=1691280d
Writing block 137 (SAPT), n=7047, ptype=8, dtype=1, ndim=10, bpb=4 bytes=281880d
Writing block 138 (VAPT), n=7047, ptype=9, dtype=1, ndim=10, bpb=4 bytes=281880d
Writing block 139 (BEGY), n=572593, ptype=2, dtype=1, ndim=1, bpb=4 bytes=2290372d
Subgroup catalogues saved. took = 7.49192 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 6.321430e-01
 eagle_ph_key_ort: type= 2 timed by volker 7.059312e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.693413e-02
 eagle_ph_key_ort: type= 4 timed by volker 4.693413e-02
 eagle_ph_key_ort: type= 5 timed by volker 4.693413e-02
 eagle_ph_key_ort: timing parallel sort = 7.551949e-01
 eagle_fetch_elements: we are using 1558324473 bytes of memory, FreeBytes= 1947905592

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 3592.33 Mbyte (on task=0), Smallest = 1316.44 Mbyte, Average = 1357.64 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      9.9318    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 2977 0   sort_index_data     24.5201    3592.3325  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1864073 number of bytes = 596503360

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 5078.34 Mbyte (on task=0), Smallest = 2802.41 Mbyte, Average = 2843.64 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      9.9318    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 2977 0   sort_index_data     24.5201    3592.3325  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      7.1109    3599.4433  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      7.1109    3606.5542  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      7.1109    3613.6651  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    568.8699    4182.5350  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    568.8699    4751.4050  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    326.9345    5078.3395  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.145346e+00
 eagle_fetch_elements: we are using 1558324473 bytes of memory, FreeBytes= 1947905592
 eagle_fetch_elements: max_bytes= 504, max_elements= 1527769 number of bytes = 769995576
 eagle_ph_key_ort: timing parallel SphP exchange = 3.217936e-03
 eagle_fetch_elements: we are using 1558324473 bytes of memory, FreeBytes= 1947905592
 eagle_fetch_elements: max_bytes= 384, max_elements= 1997851 number of bytes = 767174784
 eagle_ph_key_ort: timing parallel MetP exchange = 4.389286e-04
 eagle_fetch_elements: we are using 1558324473 bytes of memory, FreeBytes= 1947905592
 eagle_fetch_elements: max_bytes= 256, max_elements= 2973901 number of bytes = 761318656
 eagle_ph_key_ort: timing parallel BHP exchange = 3.969669e-04
Sorting particle-data by peano-hilbert key took = 3.28333 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1558324473 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1864073 number of bytes= 596503360
 eagle_ph_restore: timing parallel P exchange = 1.992715e+00
 eagle_send_elements: we are using 1558324473 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1527769 number of bytes= 769995576
 eagle_ph_restore: timing parallel SphP exchange = 2.912998e-03
 eagle_send_elements: we are using 1558324473 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1997851 number of bytes= 767174784
 eagle_ph_restore: timing parallel MetP exchange = 6.558895e-04
 eagle_send_elements: we are using 1558324473 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 2973901 number of bytes= 761318656
 eagle_ph_restore: timing parallel BHP exchange = 6.000996e-04
Restoring original order after ph key sorting took = 2.01345 sec

finished writing particle file...

Finished with SUBFIND.  (total time=5366.48 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=179561
After=200161
NTopleaves= 175141  NTopnodes=200161 (space for 244687)
gravity work-load balance=1.00051   memory-balance=1.00051   SPH work-load balance=0
iter=0 exchange of 0272973427 particles (ret=0)
domain decomposition done. (took 3.56383 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.03824 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
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 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


 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
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 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 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
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


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
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
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 176
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
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 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


 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 = 5448.69 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 =   63013.07 Mb (on task=253), Smallest =   62733.73 Mb (on task=0), Average =   62809.87 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=88), Smallest =   64531.98 Mb (on task=121), Average =   64532.08 Mb
Committed_AS:	 Largest =    1798.34 Mb (on task=0), Smallest =    1518.99 Mb (on task=253), Average =    1722.21 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16358.93 Mb (on task=165), Smallest =   16262.80 Mb (on task=33), Average =   16337.67 Mb
AllocMem:	 Largest =    1798.34 Mb (on task=0), Smallest =    1518.99 Mb (on task=253), Average =    1722.21 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin052

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.N11':
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                         5450
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=3.62036 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 9.94671 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities 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 3.43008 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 8.9401 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 6.44115 sec)
have done 0000442584 cross links (processed 0055067929, took 6.23881 sec)
have done 0000320406 cross links (processed 0046420742, took 5.0872 sec)
have done 0000224684 cross links (processed 0033355986, took 4.65453 sec)
have done 0000152361 cross links (processed 0023781569, took 3.38746 sec)
have done 0000097236 cross links (processed 0017321910, took 4.29641 sec)
have done 0000062778 cross links (processed 0009280041, took 3.7435 sec)
have done 0000035382 cross links (processed 0002514521, took 2.73386 sec)
have done 0000017740 cross links (processed 0000866705, took 0.24108 sec)
have done 0000010996 cross links (processed 0000853005, took 0.227162 sec)
have done 0000008329 cross links (processed 0001416538, took 1.56231 sec)
have done 0000006006 cross links (processed 0001021039, took 1.48454 sec)
have done 0000004270 cross links (processed 0000153383, took 0.135871 sec)
have done 0000002009 cross links (processed 0000171697, took 0.750946 sec)
have done 0000000723 cross links (processed 0000015182, took 0.061177 sec)
have done 0000000336 cross links (processed 0000006735, took 0.0529559 sec)
have done 0000000197 cross links (processed 0000006862, took 0.0482821 sec)
have done 0000000141 cross links (processed 0000005082, took 0.0508311 sec)
have done 0000000112 cross links (processed 0000004744, took 0.0553141 sec)
have done 0000000057 cross links (processed 0000002147, took 0.0492551 sec)
have done 0000000017 cross links (processed 0000000231, took 0.044837 sec)
have done 0000000005 cross links (processed 0000000088, took 0.04479 sec)
have done 0000000003 cross links (processed 0000000030, took 0.044755 sec)
have done 0000000041 cross links (processed 0000002504, took 0.0479081 sec)
have done 0000000038 cross links (processed 0000001898, took 0.0481079 sec)
have done 0000000008 cross links (processed 0000000143, took 0.0448689 sec)
have done 0000000004 cross links (processed 0000000057, took 0.0447268 sec)
have done 0000000000 cross links (processed 0000000011, took 0.0448771 sec)
Local groups found.

group finding took = 50.7428 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 = 0.109442 sec
compiling local group data and catalogue took = 0.583215 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 = 0.0814259 sec
start global sorting of group catalogues number 26
LargestGroup = 16088.977396; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0513041 sec
Group catalogues globally sorted. took = 0.761179 sec
starting saving of group catalogue number 26
data//groups_026_z000p101
Group catalogues number 26 saved. took = 2.49815 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.674826 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.267542 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.671194 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0193182977 particles. (took 20.4396 sec)
ngb iteration 2: need to repeat for 0149601659 particles. (took 9.86996 sec)
ngb iteration 3: need to repeat for 0131076065 particles. (took 7.09128 sec)
ngb iteration 4: need to repeat for 0119008630 particles. (took 5.83056 sec)
ngb iteration 5: need to repeat for 0106114525 particles. (took 5.10374 sec)
ngb iteration 6: need to repeat for 0088235079 particles. (took 4.40369 sec)
ngb iteration 7: need to repeat for 0066350987 particles. (took 3.7142 sec)
ngb iteration 8: need to repeat for 0045312606 particles. (took 2.91818 sec)
ngb iteration 9: need to repeat for 0028739587 particles. (took 2.11957 sec)
ngb iteration 10: need to repeat for 0017338741 particles. (took 1.48809 sec)
ngb iteration 11: need to repeat for 0010155509 particles. (took 0.964168 sec)
ngb iteration 12: need to repeat for 0005863588 particles. (took 0.601794 sec)
ngb iteration 13: need to repeat for 0003376522 particles. (took 0.375478 sec)
ngb iteration 14: need to repeat for 0001850066 particles. (took 0.250001 sec)
ngb iteration 15: need to repeat for 0000882132 particles. (took 0.163671 sec)
ngb iteration 16: need to repeat for 0000464934 particles. (took 0.102154 sec)
ngb iteration 17: need to repeat for 0000257924 particles. (took 0.0753298 sec)
ngb iteration 18: need to repeat for 0000147144 particles. (took 0.0600779 sec)
ngb iteration 19: need to repeat for 0000083273 particles. (took 0.0524991 sec)
ngb iteration 20: need to repeat for 0000045973 particles. (took 0.0477819 sec)
ngb iteration 21: need to repeat for 0000024744 particles. (took 0.0445781 sec)
ngb iteration 22: need to repeat for 0000012759 particles. (took 0.042891 sec)
ngb iteration 23: need to repeat for 0000006286 particles. (took 0.0419509 sec)
ngb iteration 24: need to repeat for 0000003002 particles. (took 0.0410089 sec)
ngb iteration 25: need to repeat for 0000001350 particles. (took 0.0407438 sec)
ngb iteration 26: need to repeat for 0000000591 particles. (took 0.040278 sec)
ngb iteration 27: need to repeat for 0000000245 particles. (took 0.0399621 sec)
ngb iteration 28: need to repeat for 0000000086 particles. (took 0.0399981 sec)
ngb iteration 29: need to repeat for 0000000031 particles. (took 0.0398002 sec)
ngb iteration 30: need to repeat for 0000000013 particles. (took 0.0399721 sec)
ngb iteration 31: need to repeat for 0000000002 particles. (took 0.0398252 sec)
final operations ... 
density and smoothing length for species 1 took 66.4862 sec
Tree construction.
tree build took 0.678196 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.267867 sec
Tree construction.
tree build took 0.672416 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.267508 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.132683 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.93142 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.673045 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.125388 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.91153 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.126763 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.92324 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.843659 sec
saving densities took 2.34622 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 1.42738 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 0.988717 sec)
Freed 3.35074 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 4021.48 Mbyte (on task=0), Smallest = 1799.73 Mbyte, Average = 1840.38 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      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
   0 2982 0     Extnodes_base    213.3286    3992.2166  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9574    4007.1740  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    4021.4772  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.38944 sec  (presently allocated=4021.48 MB)
force_treebuild() took 1.71634 sec (presently allocated=4021.48 MB)
Start find_linkngb (79469 particles on task=0)
find linkngb iteration 1: need to repeat for 0018295553 particles. (took 1.5752 sec)
find linkngb iteration 2: need to repeat for 0016211724 particles. (took 1.06537 sec)
find linkngb iteration 3: need to repeat for 0015442511 particles. (took 0.724614 sec)
find linkngb iteration 4: need to repeat for 0013411965 particles. (took 0.809806 sec)
find linkngb iteration 5: need to repeat for 0011110706 particles. (took 0.697295 sec)
find linkngb iteration 6: need to repeat for 0008032617 particles. (took 0.58719 sec)
find linkngb iteration 7: need to repeat for 0005048445 particles. (took 0.425684 sec)
find linkngb iteration 8: need to repeat for 0002869009 particles. (took 0.266153 sec)
find linkngb iteration 9: need to repeat for 0001536872 particles. (took 0.155549 sec)
find linkngb iteration 10: need to repeat for 0000797247 particles. (took 0.0924671 sec)
find linkngb iteration 11: need to repeat for 0000404953 particles. (took 0.05284 sec)
find linkngb iteration 12: need to repeat for 0000085415 particles. (took 0.0315869 sec)
find linkngb iteration 13: need to repeat for 0000001853 particles. (took 0.0545101 sec)
find linkngb iteration 14: need to repeat for 0000000597 particles. (took 0.00259686 sec)
find linkngb iteration 15: need to repeat for 0000000214 particles. (took 0.00195003 sec)
find linkngb iteration 16: need to repeat for 0000000070 particles. (took 0.000966072 sec)
find linkngb iteration 17: need to repeat for 0000000019 particles. (took 0.000781059 sec)
find linkngb iteration 18: need to repeat for 0000000008 particles. (took 0.000652075 sec)
find_linkngb() took 6.54706 sec
Start finding nearest two (79469 particles on task=0)
find_nearesttwo() took 1.13433 sec (presently allocated=4027.54 MB)
parallel sort of densities done. took 0.1085 sec
building distributed linked list. (presently allocated 4026.75 MB)
identification of primary candidates took 515.072 sec
adding background as candidate took 0.16437 sec
establishing of rank order took 150.531 sec  (p=20439033, grouplen=20439033) presently allocated 4026.75 MB

total number of subhalo candidates=100122

number of subhalo candidates that can be done independently=87364.
(Largest size is 3483, finding them took 0.067523 sec)
particles are marked (took 117.174)
independent subhalos are assembled on individual CPUs for unbinding (0.21466 sec, (presently allocated=4026.75 MB)
unbinding of independent ones took 0.135772 sec
particles have returned to their original processor (0.272399 sec, presently allocated 4026.75 MB)

number of subhalo candidates that can be done independently=11761.
(Largest size is 38438, finding them took 0.941595 sec)
particles are marked (took 78.9377)
independent subhalos are assembled on individual CPUs for unbinding (0.180719 sec, (presently allocated=4026.75 MB)
unbinding of independent ones took 0.875076 sec
particles have returned to their original processor (0.239705 sec, presently allocated 4026.75 MB)

number of subhalo candidates that can be done independently=937.
(Largest size is 136472, finding them took 0.904819 sec)
particles are marked (took 65.1282)
independent subhalos are assembled on individual CPUs for unbinding (0.171768 sec, (presently allocated=4026.75 MB)
unbinding of independent ones took 4.52977 sec
particles have returned to their original processor (0.233318 sec, presently allocated 4026.75 MB)

number of subhalo candidates that can be done independently=48.
(Largest size is 289025, finding them took 1.00323 sec)
particles are marked (took 50.7762)
independent subhalos are assembled on individual CPUs for unbinding (0.148808 sec, (presently allocated=4026.75 MB)
unbinding of independent ones took 2.05708 sec
particles have returned to their original processor (0.210344 sec, presently allocated 4026.75 MB)

number of subhalo candidates that can be done independently=6.
(Largest size is 289025, finding them took 0.514926 sec)
particles are marked (took 46.9395)
independent subhalos are assembled on individual CPUs for unbinding (0.142601 sec, (presently allocated=4026.75 MB)
unbinding of independent ones took 0.615253 sec
particles have returned to their original processor (0.204618 sec, presently allocated 4026.75 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 289025, finding them took 0.467784 sec)
too few, I do the rest of 6 collectively

collective unbinding of nr=0 (6) of length=256252 ... maximum alloacted 4027.06 MB
took 5.40111 sec
collective unbinding of nr=1 (6) of length=168457 ... maximum alloacted 4027.06 MB
took 5.19787 sec
collective unbinding of nr=2 (6) of length=221874 ... maximum alloacted 4027.06 MB
took 4.29193 sec
collective unbinding of nr=3 (6) of length=289025 ... maximum alloacted 4027.06 MB
took 5.3043 sec
collective unbinding of nr=4 (6) of length=6091107 ... maximum alloacted 4027.06 MB
took 95.1178 sec
collective unbinding of nr=5 (6) of length=20439033 ... maximum alloacted 4027.06 MB
took 332.233 sec

the collective unbinding of remaining halos took 492.28 sec

found 6140 bound substructures in FoF group of length 20439033
determination of parent subhalo took 0.132536 sec (presently allocated 4027.06 MB)
determining substructure properties took 448.193 sec (presently allocated 4027.06 MB)

collectively doing halo 2, 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)
Before=132769
After=165649
NTopleaves= 144943  NTopnodes=165649 (space for 244687)
gravity work-load balance=1.00063   memory-balance=1.00063   SPH work-load balance=0
iter=0 exchange of 0011866769 particles (ret=0)
domain decomposition done. (took 0.917428 sec)
Freed 3.61807 MByte in top-level domain structure
coldomain_Decomposition() took 1.31057 sec  (presently allocated=4020.17 MB)
force_treebuild() took 1.71816 sec (presently allocated=4020.17 MB)
Start find_linkngb (46313 particles on task=0)
find linkngb iteration 1: need to repeat for 0011342339 particles. (took 0.89309 sec)
find linkngb iteration 2: need to repeat for 0010387200 particles. (took 0.640431 sec)
find linkngb iteration 3: need to repeat for 0009902202 particles. (took 0.433325 sec)
find linkngb iteration 4: need to repeat for 0008666467 particles. (took 0.486561 sec)
find linkngb iteration 5: need to repeat for 0007198496 particles. (took 0.419599 sec)
find linkngb iteration 6: need to repeat for 0005217442 particles. (took 0.34794 sec)
find linkngb iteration 7: need to repeat for 0003282271 particles. (took 0.249345 sec)
find linkngb iteration 8: need to repeat for 0001867835 particles. (took 0.155192 sec)
find linkngb iteration 9: need to repeat for 0001000280 particles. (took 0.0936821 sec)
find linkngb iteration 10: need to repeat for 0000518203 particles. (took 0.05635 sec)
find linkngb iteration 11: need to repeat for 0000263207 particles. (took 0.033926 sec)
find linkngb iteration 12: need to repeat for 0000056145 particles. (took 0.0212059 sec)
find linkngb iteration 13: need to repeat for 0000001465 particles. (took 0.00934291 sec)
find linkngb iteration 14: need to repeat for 0000000501 particles. (took 0.00092411 sec)
find linkngb iteration 15: need to repeat for 0000000208 particles. (took 0.000553846 sec)
find linkngb iteration 16: need to repeat for 0000000088 particles. (took 0.000487089 sec)
find linkngb iteration 17: need to repeat for 0000000027 particles. (took 0.000463009 sec)
find linkngb iteration 18: need to repeat for 0000000006 particles. (took 0.000470161 sec)
find_linkngb() took 3.84396 sec
Start finding nearest two (46313 particles on task=0)
find_nearesttwo() took 0.674164 sec (presently allocated=4023.7 MB)
parallel sort of densities done. took 0.067944 sec
building distributed linked list. (presently allocated 4023.24 MB)
identification of primary candidates took 280.996 sec
adding background as candidate took 0.164902 sec
establishing of rank order took 90.1782 sec  (p=11907520, grouplen=11907520) presently allocated 4023.24 MB

total number of subhalo candidates=59379

number of subhalo candidates that can be done independently=51584.
(Largest size is 6378, finding them took 0.0161681 sec)
particles are marked (took 69.7245)
independent subhalos are assembled on individual CPUs for unbinding (0.180514 sec, (presently allocated=4023.24 MB)
unbinding of independent ones took 0.140225 sec
particles have returned to their original processor (0.261145 sec, presently allocated 4023.24 MB)

number of subhalo candidates that can be done independently=7115.
(Largest size is 45844, finding them took 0.914397 sec)
particles are marked (took 47.5666)
independent subhalos are assembled on individual CPUs for unbinding (0.165573 sec, (presently allocated=4023.24 MB)
unbinding of independent ones took 1.15651 sec
particles have returned to their original processor (0.225222 sec, presently allocated 4023.24 MB)

number of subhalo candidates that can be done independently=627.
(Largest size is 70357, finding them took 0.902131 sec)
particles are marked (took 37.881)
independent subhalos are assembled on individual CPUs for unbinding (0.157706 sec, (presently allocated=4023.24 MB)
unbinding of independent ones took 3.18333 sec
particles have returned to their original processor (0.221484 sec, presently allocated 4023.24 MB)

number of subhalo candidates that can be done independently=48.
(Largest size is 171870, finding them took 0.794682 sec)
particles are marked (took 31.5534)
independent subhalos are assembled on individual CPUs for unbinding (0.147125 sec, (presently allocated=4023.24 MB)
unbinding of independent ones took 1.81618 sec
particles have returned to their original processor (0.21546 sec, presently allocated 4023.24 MB)

number of subhalo candidates that can be done independently=3.
(Largest size is 171870, finding them took 0.48772 sec)
particles are marked (took 28.471)
independent subhalos are assembled on individual CPUs for unbinding (0.14508 sec, (presently allocated=4023.24 MB)
unbinding of independent ones took 2.16707 sec
particles have returned to their original processor (0.210808 sec, presently allocated 4023.24 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 171870, finding them took 0.490433 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=171870 ... maximum alloacted 4023.42 MB
took 3.6031 sec
collective unbinding of nr=1 (2) of length=11907520 ... maximum alloacted 4023.42 MB
took 198.919 sec

the collective unbinding of remaining halos took 228.94 sec

found 3900 bound substructures in FoF group of length 11907520
determination of parent subhalo took 0.041471 sec (presently allocated 4023.42 MB)
determining substructure properties took 226.438 sec (presently allocated 4023.42 MB)

collectively doing halo 3, 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)
Before=139425
After=165881
NTopleaves= 145146  NTopnodes=165881 (space for 244687)
gravity work-load balance=1.00061   memory-balance=1.00061   SPH work-load balance=0
iter=0 exchange of 0005888625 particles (ret=0)
domain decomposition done. (took 0.865236 sec)
Freed 3.60745 MByte in top-level domain structure
coldomain_Decomposition() took 1.25743 sec  (presently allocated=4020.22 MB)
force_treebuild() took 1.65732 sec (presently allocated=4020.22 MB)
Start find_linkngb (23025 particles on task=0)
find linkngb iteration 1: need to repeat for 0005835210 particles. (took 0.426215 sec)
find linkngb iteration 2: need to repeat for 0005593294 particles. (took 0.294643 sec)
find linkngb iteration 3: need to repeat for 0005348000 particles. (took 0.202913 sec)
find linkngb iteration 4: need to repeat for 0004741180 particles. (took 0.230868 sec)
find linkngb iteration 5: need to repeat for 0003958497 particles. (took 0.216673 sec)
find linkngb iteration 6: need to repeat for 0002874856 particles. (took 0.172211 sec)
find linkngb iteration 7: need to repeat for 0001810887 particles. (took 0.118853 sec)
find linkngb iteration 8: need to repeat for 0001032868 particles. (took 0.0790181 sec)
find linkngb iteration 9: need to repeat for 0000554705 particles. (took 0.049314 sec)
find linkngb iteration 10: need to repeat for 0000287661 particles. (took 0.03146 sec)
find linkngb iteration 11: need to repeat for 0000145869 particles. (took 0.0211179 sec)
find linkngb iteration 12: need to repeat for 0000031321 particles. (took 0.014724 sec)
find linkngb iteration 13: need to repeat for 0000001025 particles. (took 0.00762701 sec)
find linkngb iteration 14: need to repeat for 0000000360 particles. (took 0.000790119 sec)
find linkngb iteration 15: need to repeat for 0000000130 particles. (took 0.000540018 sec)
find linkngb iteration 16: need to repeat for 0000000054 particles. (took 0.000449896 sec)
find linkngb iteration 17: need to repeat for 0000000019 particles. (took 0.000427008 sec)
find linkngb iteration 18: need to repeat for 0000000006 particles. (took 0.000379086 sec)
find linkngb iteration 19: need to repeat for 0000000001 particles. (took 0.000399113 sec)
find_linkngb() took 1.86953 sec
Start finding nearest two (23025 particles on task=0)
find_nearesttwo() took 0.344257 sec (presently allocated=4021.97 MB)
parallel sort of densities done. took 0.0457029 sec
building distributed linked list. (presently allocated 4021.75 MB)
identification of primary candidates took 146.488 sec
adding background as candidate took 0.159756 sec
establishing of rank order took 46.0703 sec  (p=5913814, grouplen=5913814) presently allocated 4021.75 MB

total number of subhalo candidates=26778

number of subhalo candidates that can be done independently=23675.
(Largest size is 2121, finding them took 0.00727916 sec)
particles are marked (took 32.4327)
independent subhalos are assembled on individual CPUs for unbinding (0.154338 sec, (presently allocated=4021.75 MB)
unbinding of independent ones took 0.0664999 sec
particles have returned to their original processor (0.213836 sec, presently allocated 4021.75 MB)

number of subhalo candidates that can be done independently=2833.
(Largest size is 37995, finding them took 0.866587 sec)
particles are marked (took 21.8757)
independent subhalos are assembled on individual CPUs for unbinding (0.150768 sec, (presently allocated=4021.75 MB)
unbinding of independent ones took 0.799801 sec
particles have returned to their original processor (0.213612 sec, presently allocated 4021.75 MB)

number of subhalo candidates that can be done independently=246.
(Largest size is 44322, finding them took 1.08042 sec)
particles are marked (took 17.1506)
independent subhalos are assembled on individual CPUs for unbinding (0.149197 sec, (presently allocated=4021.75 MB)
unbinding of independent ones took 1.89709 sec
particles have returned to their original processor (0.212695 sec, presently allocated 4021.75 MB)

number of subhalo candidates that can be done independently=18.
(Largest size is 179819, finding them took 0.646504 sec)
particles are marked (took 16.7919)
independent subhalos are assembled on individual CPUs for unbinding (0.163214 sec, (presently allocated=4021.75 MB)
unbinding of independent ones took 5.61611 sec
particles have returned to their original processor (0.243636 sec, presently allocated 4021.75 MB)

number of subhalo candidates that can be done independently=2.
(Largest size is 179819, finding them took 0.482133 sec)
particles are marked (took 13.5238)
independent subhalos are assembled on individual CPUs for unbinding (0.14259 sec, (presently allocated=4021.75 MB)
unbinding of independent ones took 0.814198 sec
particles have returned to their original processor (0.20999 sec, presently allocated 4021.75 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 179819, finding them took 0.462216 sec)
particles are marked (took 12.5834)
independent subhalos are assembled on individual CPUs for unbinding (0.138298 sec, (presently allocated=4021.75 MB)
unbinding of independent ones took 0.182202 sec
particles have returned to their original processor (0.203145 sec, presently allocated 4021.75 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 179819, finding them took 0.428485 sec)
particles are marked (took 13.4201)
independent subhalos are assembled on individual CPUs for unbinding (0.143694 sec, (presently allocated=4021.75 MB)
unbinding of independent ones took 1.47516 sec
particles have returned to their original processor (0.213612 sec, presently allocated 4021.75 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 179819, finding them took 0.492101 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=179819 ... maximum alloacted 4021.83 MB
took 4.02607 sec
collective unbinding of nr=1 (2) of length=5913814 ... maximum alloacted 4021.83 MB
took 98.2793 sec

the collective unbinding of remaining halos took 114.358 sec

found 2269 bound substructures in FoF group of length 5913814
determination of parent subhalo took 0.0333939 sec (presently allocated 4021.83 MB)
determining substructure properties took 121.74 sec (presently allocated 4021.83 MB)

collectively doing halo 4, 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)
Before=141393
After=166169
NTopleaves= 145398  NTopnodes=166169 (space for 244687)
gravity work-load balance=1.00048   memory-balance=1.00048   SPH work-load balance=0
iter=0 exchange of 0004660262 particles (ret=0)
domain decomposition done. (took 0.855018 sec)
Freed 3.59427 MByte in top-level domain structure
coldomain_Decomposition() took 1.25109 sec  (presently allocated=4020.28 MB)
force_treebuild() took 1.66033 sec (presently allocated=4020.28 MB)
Start find_linkngb (18203 particles on task=0)
find linkngb iteration 1: need to repeat for 0004643592 particles. (took 0.325637 sec)
find linkngb iteration 2: need to repeat for 0004500357 particles. (took 0.224489 sec)
find linkngb iteration 3: need to repeat for 0004307657 particles. (took 0.154088 sec)
find linkngb iteration 4: need to repeat for 0003834730 particles. (took 0.175054 sec)
find linkngb iteration 5: need to repeat for 0003207653 particles. (took 0.150242 sec)
find linkngb iteration 6: need to repeat for 0002334158 particles. (took 0.125321 sec)
find linkngb iteration 7: need to repeat for 0001472561 particles. (took 0.0920491 sec)
find linkngb iteration 8: need to repeat for 0000839842 particles. (took 0.0808659 sec)
find linkngb iteration 9: need to repeat for 0000451001 particles. (took 0.0638461 sec)
find linkngb iteration 10: need to repeat for 0000234122 particles. (took 0.030654 sec)
find linkngb iteration 11: need to repeat for 0000119004 particles. (took 0.062052 sec)
find linkngb iteration 12: need to repeat for 0000025492 particles. (took 0.0350652 sec)
find linkngb iteration 13: need to repeat for 0000000860 particles. (took 0.00896096 sec)
find linkngb iteration 14: need to repeat for 0000000316 particles. (took 0.000667095 sec)
find linkngb iteration 15: need to repeat for 0000000112 particles. (took 0.000446081 sec)
find linkngb iteration 16: need to repeat for 0000000035 particles. (took 0.000363827 sec)
find linkngb iteration 17: need to repeat for 0000000009 particles. (took 0.000421047 sec)
find linkngb iteration 18: need to repeat for 0000000001 particles. (took 0.000424147 sec)
find_linkngb() took 1.5315 sec
Start finding nearest two (18203 particles on task=0)
find_nearesttwo() took 0.270351 sec (presently allocated=4021.67 MB)
parallel sort of densities done. took 0.0417042 sec
building distributed linked list. (presently allocated 4021.49 MB)
identification of primary candidates took 116.883 sec
adding background as candidate took 0.160923 sec
establishing of rank order took 36.2295 sec  (p=4678201, grouplen=4678201) presently allocated 4021.49 MB

total number of subhalo candidates=20465

number of subhalo candidates that can be done independently=18200.
(Largest size is 2226, finding them took 0.00555491 sec)
particles are marked (took 24.8602)
independent subhalos are assembled on individual CPUs for unbinding (0.151032 sec, (presently allocated=4021.49 MB)
unbinding of independent ones took 0.043541 sec
particles have returned to their original processor (0.211166 sec, presently allocated 4021.49 MB)

number of subhalo candidates that can be done independently=2097.
(Largest size is 40945, finding them took 0.869114 sec)
particles are marked (took 17.7317)
independent subhalos are assembled on individual CPUs for unbinding (0.152485 sec, (presently allocated=4021.49 MB)
unbinding of independent ones took 1.01354 sec
particles have returned to their original processor (0.218753 sec, presently allocated 4021.49 MB)

number of subhalo candidates that can be done independently=153.
(Largest size is 104214, finding them took 0.845744 sec)
particles are marked (took 18.2282)
independent subhalos are assembled on individual CPUs for unbinding (0.163097 sec, (presently allocated=4021.49 MB)
unbinding of independent ones took 3.74477 sec
particles have returned to their original processor (0.24014 sec, presently allocated 4021.49 MB)

number of subhalo candidates that can be done independently=12.
(Largest size is 13153, finding them took 0.478928 sec)
particles are marked (took 10.0229)
independent subhalos are assembled on individual CPUs for unbinding (0.140253 sec, (presently allocated=4021.49 MB)
unbinding of independent ones took 0.213122 sec
particles have returned to their original processor (0.20413 sec, presently allocated 4021.49 MB)

number of subhalo candidates that can be done independently=2.
(Largest size is 15897, finding them took 0.475206 sec)
particles are marked (took 9.87649)
independent subhalos are assembled on individual CPUs for unbinding (0.139711 sec, (presently allocated=4021.49 MB)
unbinding of independent ones took 0.300037 sec
particles have returned to their original processor (0.205174 sec, presently allocated 4021.49 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 4678201, finding them took 0.473481 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=4678201 ... maximum alloacted 4021.56 MB
took 77.7983 sec

the collective unbinding of remaining halos took 86.9228 sec

found 1731 bound substructures in FoF group of length 4678201
determination of parent subhalo took 0.0299239 sec (presently allocated 4021.56 MB)
determining substructure properties took 95.3056 sec (presently allocated 4021.56 MB)

collectively doing halo 5, 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)
Before=144425
After=167633
NTopleaves= 146679  NTopnodes=167633 (space for 244687)
gravity work-load balance=1.00047   memory-balance=1.00047   SPH work-load balance=0
iter=0 exchange of 0003224900 particles (ret=0)
domain decomposition done. (took 0.855473 sec)
Freed 3.52725 MByte in top-level domain structure
coldomain_Decomposition() took 1.24959 sec  (presently allocated=4020.61 MB)
force_treebuild() took 1.65508 sec (presently allocated=4020.61 MB)
Start find_linkngb (12644 particles on task=0)
find linkngb iteration 1: need to repeat for 0003226065 particles. (took 0.223353 sec)
find linkngb iteration 2: need to repeat for 0003167092 particles. (took 0.148993 sec)
find linkngb iteration 3: need to repeat for 0003037734 particles. (took 0.104022 sec)
find linkngb iteration 4: need to repeat for 0002721084 particles. (took 0.11811 sec)
find linkngb iteration 5: need to repeat for 0002283424 particles. (took 0.101962 sec)
find linkngb iteration 6: need to repeat for 0001665234 particles. (took 0.0861659 sec)
find linkngb iteration 7: need to repeat for 0001051583 particles. (took 0.0633981 sec)
find linkngb iteration 8: need to repeat for 0000599789 particles. (took 0.0437751 sec)
find linkngb iteration 9: need to repeat for 0000321697 particles. (took 0.028194 sec)
find linkngb iteration 10: need to repeat for 0000167210 particles. (took 0.0184541 sec)
find linkngb iteration 11: need to repeat for 0000085058 particles. (took 0.0128522 sec)
find linkngb iteration 12: need to repeat for 0000018550 particles. (took 0.00942683 sec)
find linkngb iteration 13: need to repeat for 0000000633 particles. (took 0.00537992 sec)
find linkngb iteration 14: need to repeat for 0000000212 particles. (took 0.000547171 sec)
find linkngb iteration 15: need to repeat for 0000000071 particles. (took 0.000381947 sec)
find linkngb iteration 16: need to repeat for 0000000021 particles. (took 0.000329018 sec)
find linkngb iteration 17: need to repeat for 0000000007 particles. (took 0.000319958 sec)
find linkngb iteration 18: need to repeat for 0000000001 particles. (took 0.000302792 sec)
find_linkngb() took 0.966751 sec
Start finding nearest two (12644 particles on task=0)
find_nearesttwo() took 0.190331 sec (presently allocated=4021.58 MB)
parallel sort of densities done. took 0.042433 sec
building distributed linked list. (presently allocated 4021.45 MB)
identification of primary candidates took 83.1385 sec
adding background as candidate took 0.157412 sec
establishing of rank order took 25.6569 sec  (p=3235595, grouplen=3235595) presently allocated 4021.45 MB

total number of subhalo candidates=13377

number of subhalo candidates that can be done independently=12068.
(Largest size is 1718, finding them took 0.00383091 sec)
particles are marked (took 16.4905)
independent subhalos are assembled on individual CPUs for unbinding (0.143616 sec, (presently allocated=4021.45 MB)
unbinding of independent ones took 0.032959 sec
particles have returned to their original processor (0.213027 sec, presently allocated 4021.45 MB)

number of subhalo candidates that can be done independently=1228.
(Largest size is 24272, finding them took 0.861622 sec)
particles are marked (took 11.1842)
independent subhalos are assembled on individual CPUs for unbinding (0.149388 sec, (presently allocated=4021.45 MB)
unbinding of independent ones took 0.823799 sec
particles have returned to their original processor (0.214767 sec, presently allocated 4021.45 MB)

number of subhalo candidates that can be done independently=72.
(Largest size is 140665, finding them took 0.969607 sec)
particles are marked (took 10.6819)
independent subhalos are assembled on individual CPUs for unbinding (0.160373 sec, (presently allocated=4021.45 MB)
unbinding of independent ones took 3.78465 sec
particles have returned to their original processor (0.238206 sec, presently allocated 4021.45 MB)

number of subhalo candidates that can be done independently=7.
(Largest size is 135897, finding them took 0.477577 sec)
particles are marked (took 9.93717)
independent subhalos are assembled on individual CPUs for unbinding (0.152226 sec, (presently allocated=4021.45 MB)
unbinding of independent ones took 2.65315 sec
particles have returned to their original processor (0.228116 sec, presently allocated 4021.45 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 6873, finding them took 0.475791 sec)
particles are marked (took 6.41357)
independent subhalos are assembled on individual CPUs for unbinding (0.138073 sec, (presently allocated=4021.45 MB)
unbinding of independent ones took 0.0857599 sec
particles have returned to their original processor (0.201985 sec, presently allocated 4021.45 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 3235595, finding them took 0.409084 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=3235595 ... maximum alloacted 4021.5 MB
took 57.7046 sec

the collective unbinding of remaining halos took 63.7502 sec

found 1205 bound substructures in FoF group of length 3235595
determination of parent subhalo took 0.0283971 sec (presently allocated 4021.5 MB)
determining substructure properties took 67.8767 sec (presently allocated 4021.5 MB)

collectively doing halo 6, 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)
Before=144593
After=165905
NTopleaves= 145167  NTopnodes=165905 (space for 244687)
gravity work-load balance=1.00045   memory-balance=1.00045   SPH work-load balance=0
iter=0 exchange of 0002950502 particles (ret=0)
domain decomposition done. (took 0.8372 sec)
Freed 3.60635 MByte in top-level domain structure
coldomain_Decomposition() took 1.23185 sec  (presently allocated=4020.22 MB)
force_treebuild() took 1.66363 sec (presently allocated=4020.22 MB)
Start find_linkngb (11567 particles on task=0)
find linkngb iteration 1: need to repeat for 0002951938 particles. (took 0.200075 sec)
find linkngb iteration 2: need to repeat for 0002899483 particles. (took 0.130469 sec)
find linkngb iteration 3: need to repeat for 0002782616 particles. (took 0.09354 sec)
find linkngb iteration 4: need to repeat for 0002493824 particles. (took 0.105115 sec)
find linkngb iteration 5: need to repeat for 0002091558 particles. (took 0.0914311 sec)
find linkngb iteration 6: need to repeat for 0001522256 particles. (took 0.077379 sec)
find linkngb iteration 7: need to repeat for 0000960284 particles. (took 0.0577149 sec)
find linkngb iteration 8: need to repeat for 0000547924 particles. (took 0.0399461 sec)
find linkngb iteration 9: need to repeat for 0000294185 particles. (took 0.026623 sec)
find linkngb iteration 10: need to repeat for 0000152968 particles. (took 0.0189538 sec)
find linkngb iteration 11: need to repeat for 0000077507 particles. (took 0.012826 sec)
find linkngb iteration 12: need to repeat for 0000017069 particles. (took 0.00955415 sec)
find linkngb iteration 13: need to repeat for 0000000653 particles. (took 0.00545287 sec)
find linkngb iteration 14: need to repeat for 0000000240 particles. (took 0.000492096 sec)
find linkngb iteration 15: need to repeat for 0000000088 particles. (took 0.000391006 sec)
find linkngb iteration 16: need to repeat for 0000000026 particles. (took 0.000338078 sec)
find linkngb iteration 17: need to repeat for 0000000008 particles. (took 0.000324011 sec)
find linkngb iteration 18: need to repeat for 0000000003 particles. (took 0.000305891 sec)
find_linkngb() took 0.871696 sec
Start finding nearest two (11567 particles on task=0)
find_nearesttwo() took 0.174529 sec (presently allocated=4021.11 MB)
parallel sort of densities done. took 0.0378692 sec
building distributed linked list. (presently allocated 4020.99 MB)
identification of primary candidates took 77.9839 sec
adding background as candidate took 0.15714 sec
establishing of rank order took 23.5986 sec  (p=2959808, grouplen=2959808) presently allocated 4020.99 MB

total number of subhalo candidates=11969

number of subhalo candidates that can be done independently=10799.
(Largest size is 1848, finding them took 0.00345421 sec)
particles are marked (took 14.7761)
independent subhalos are assembled on individual CPUs for unbinding (0.142397 sec, (presently allocated=4020.99 MB)
unbinding of independent ones took 0.0359039 sec
particles have returned to their original processor (0.208408 sec, presently allocated 4020.99 MB)

number of subhalo candidates that can be done independently=1084.
(Largest size is 36082, finding them took 0.862306 sec)
particles are marked (took 10.3805)
independent subhalos are assembled on individual CPUs for unbinding (0.148241 sec, (presently allocated=4020.99 MB)
unbinding of independent ones took 0.909793 sec
particles have returned to their original processor (0.212275 sec, presently allocated 4020.99 MB)

number of subhalo candidates that can be done independently=76.
(Largest size is 43655, finding them took 0.898945 sec)
particles are marked (took 8.74572)
independent subhalos are assembled on individual CPUs for unbinding (0.151621 sec, (presently allocated=4020.99 MB)
unbinding of independent ones took 0.992747 sec
particles have returned to their original processor (0.21717 sec, presently allocated 4020.99 MB)

number of subhalo candidates that can be done independently=8.
(Largest size is 133076, finding them took 0.477989 sec)
particles are marked (took 8.83542)
independent subhalos are assembled on individual CPUs for unbinding (0.149507 sec, (presently allocated=4020.99 MB)
unbinding of independent ones took 3.20789 sec
particles have returned to their original processor (0.228074 sec, presently allocated 4020.99 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 342248, finding them took 0.478161 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=342248 ... maximum alloacted 4021.03 MB
took 5.62333 sec
collective unbinding of nr=1 (2) of length=2959808 ... maximum alloacted 4021.03 MB
took 49.9344 sec

the collective unbinding of remaining halos took 60.8983 sec

found 1140 bound substructures in FoF group of length 2959808
determination of parent subhalo took 0.024554 sec (presently allocated 4021.03 MB)
determining substructure properties took 65.3797 sec (presently allocated 4021.03 MB)

collectively doing halo 7, 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)
Before=144129
After=164169
NTopleaves= 143648  NTopnodes=164169 (space for 244687)
gravity work-load balance=1.00043   memory-balance=1.00043   SPH work-load balance=0
iter=0 exchange of 0002701166 particles (ret=0)
domain decomposition done. (took 0.843322 sec)
Freed 3.68582 MByte in top-level domain structure
coldomain_Decomposition() took 1.23866 sec  (presently allocated=4019.83 MB)
force_treebuild() took 1.67418 sec (presently allocated=4019.83 MB)
Start find_linkngb (10557 particles on task=0)
find linkngb iteration 1: need to repeat for 0002706325 particles. (took 0.187348 sec)
find linkngb iteration 2: need to repeat for 0002663907 particles. (took 0.122495 sec)
find linkngb iteration 3: need to repeat for 0002557180 particles. (took 0.109437 sec)
find linkngb iteration 4: need to repeat for 0002296967 particles. (took 0.125742 sec)
find linkngb iteration 5: need to repeat for 0001929899 particles. (took 0.11097 sec)
find linkngb iteration 6: need to repeat for 0001408045 particles. (took 0.072279 sec)
find linkngb iteration 7: need to repeat for 0000890253 particles. (took 0.054117 sec)
find linkngb iteration 8: need to repeat for 0000508618 particles. (took 0.037137 sec)
find linkngb iteration 9: need to repeat for 0000273275 particles. (took 0.0247061 sec)
find linkngb iteration 10: need to repeat for 0000142600 particles. (took 0.016175 sec)
find linkngb iteration 11: need to repeat for 0000072465 particles. (took 0.011621 sec)
find linkngb iteration 12: need to repeat for 0000015994 particles. (took 0.00891685 sec)
find linkngb iteration 13: need to repeat for 0000000642 particles. (took 0.00508785 sec)
find linkngb iteration 14: need to repeat for 0000000224 particles. (took 0.000476122 sec)
find linkngb iteration 15: need to repeat for 0000000100 particles. (took 0.000365019 sec)
find linkngb iteration 16: need to repeat for 0000000042 particles. (took 0.00032115 sec)
find linkngb iteration 17: need to repeat for 0000000015 particles. (took 0.000345945 sec)
find linkngb iteration 18: need to repeat for 0000000006 particles. (took 0.000304937 sec)
find_linkngb() took 0.888603 sec
Start finding nearest two (10557 particles on task=0)
find_nearesttwo() took 0.162031 sec (presently allocated=4020.64 MB)
parallel sort of densities done. took 0.0367599 sec
building distributed linked list. (presently allocated 4020.53 MB)
identification of primary candidates took 68.3161 sec
adding background as candidate took 0.159598 sec
establishing of rank order took 21.7856 sec  (p=2711151, grouplen=2711151) presently allocated 4020.53 MB

total number of subhalo candidates=11661

number of subhalo candidates that can be done independently=10476.
(Largest size is 2006, finding them took 0.00332117 sec)
particles are marked (took 14.4778)
independent subhalos are assembled on individual CPUs for unbinding (0.14353 sec, (presently allocated=4020.53 MB)
unbinding of independent ones took 0.0341351 sec
particles have returned to their original processor (0.204642 sec, presently allocated 4020.53 MB)

number of subhalo candidates that can be done independently=1099.
(Largest size is 16688, finding them took 0.867435 sec)
particles are marked (took 9.4047)
independent subhalos are assembled on individual CPUs for unbinding (0.145577 sec, (presently allocated=4020.53 MB)
unbinding of independent ones took 0.312223 sec
particles have returned to their original processor (0.212667 sec, presently allocated 4020.53 MB)

number of subhalo candidates that can be done independently=77.
(Largest size is 33799, finding them took 1.06281 sec)
particles are marked (took 8.10327)
independent subhalos are assembled on individual CPUs for unbinding (0.147517 sec, (presently allocated=4020.53 MB)
unbinding of independent ones took 0.915988 sec
particles have returned to their original processor (0.216734 sec, presently allocated 4020.53 MB)

number of subhalo candidates that can be done independently=8.
(Largest size is 50439, finding them took 0.477482 sec)
particles are marked (took 7.04977)
independent subhalos are assembled on individual CPUs for unbinding (0.15047 sec, (presently allocated=4020.53 MB)
unbinding of independent ones took 1.16682 sec
particles have returned to their original processor (0.226525 sec, presently allocated 4020.53 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 2711151, finding them took 0.478236 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=2711151 ... maximum alloacted 4020.57 MB
took 46.0209 sec

the collective unbinding of remaining halos took 51.2181 sec

found 990 bound substructures in FoF group of length 2711151
determination of parent subhalo took 0.0257342 sec (presently allocated 4020.57 MB)
determining substructure properties took 54.573 sec (presently allocated 4020.57 MB)
processing of collective halos took 4964.3 sec
sort of local particles()() took 0.501817 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 269.644 sec

Task 129: testing particles ...
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unsorting of local particles()() took 0.401279 sec
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subfind_exchange() (for return to original CPU)  took 3.0268 sec
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)
Before=184881
After=203489
NTopleaves= 178053  NTopnodes=203489 (space for 244687)
gravity work-load balance=1.00039   memory-balance=1.00039   SPH work-load balance=0
iter=0 exchange of 0273026361 particles (ret=0)
domain decomposition done. (took 3.57063 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.88589 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000151971 particles. (took 0.0228531 sec)
SO iteration 2: need to repeat for 0000151971 particles. (took 0.0200341 sec)
SO iteration 3: need to repeat for 0000151971 particles. (took 0.020421 sec)
SO iteration 4: need to repeat for 0000151971 particles. (took 0.0205479 sec)
SO iteration 5: need to repeat for 0000151971 particles. (took 0.022208 sec)
SO iteration 6: need to repeat for 0000151971 particles. (took 0.0253081 sec)
SO iteration 7: need to repeat for 0000151971 particles. (took 0.0208631 sec)
SO iteration 8: need to repeat for 0000151971 particles. (took 0.0206029 sec)
SO iteration 9: need to repeat for 0000151971 particles. (took 0.0206141 sec)
SO iteration 10: need to repeat for 0000151971 particles. (took 0.020684 sec)
SO iteration 11: need to repeat for 0000151971 particles. (took 0.0206161 sec)
SO iteration 12: need to repeat for 0000151971 particles. (took 0.0206389 sec)
SO iteration 13: need to repeat for 0000151971 particles. (took 0.022192 sec)
SO iteration 14: need to repeat for 0000151971 particles. (took 0.023068 sec)
SO iteration 15: need to repeat for 0000151454 particles. (took 0.0206711 sec)
SO iteration 16: need to repeat for 0000000356 particles. (took 0.020391 sec)
SO iteration 17: need to repeat for 0000000036 particles. (took 0.000987053 sec)
SO iteration 1: need to repeat for 0000151971 particles. (took 0.0210228 sec)
SO iteration 2: need to repeat for 0000151971 particles. (took 0.019623 sec)
SO iteration 3: need to repeat for 0000151971 particles. (took 0.0214171 sec)
SO iteration 4: need to repeat for 0000151971 particles. (took 0.019978 sec)
SO iteration 5: need to repeat for 0000151971 particles. (took 0.0190439 sec)
SO iteration 6: need to repeat for 0000151971 particles. (took 0.0196478 sec)
SO iteration 7: need to repeat for 0000151971 particles. (took 0.0192311 sec)
SO iteration 8: need to repeat for 0000151971 particles. (took 0.0194471 sec)
SO iteration 9: need to repeat for 0000151971 particles. (took 0.0193949 sec)
SO iteration 10: need to repeat for 0000151971 particles. (took 0.0193291 sec)
SO iteration 11: need to repeat for 0000151971 particles. (took 0.0211151 sec)
SO iteration 12: need to repeat for 0000151971 particles. (took 0.021126 sec)
SO iteration 13: need to repeat for 0000151971 particles. (took 0.019171 sec)
SO iteration 14: need to repeat for 0000151971 particles. (took 0.019079 sec)
SO iteration 15: need to repeat for 0000151861 particles. (took 0.01932 sec)
SO iteration 16: need to repeat for 0000015845 particles. (took 0.0195642 sec)
SO iteration 17: need to repeat for 0000000261 particles. (took 0.00634289 sec)
SO iteration 18: need to repeat for 0000000037 particles. (took 0.00201297 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.00110507 sec)
SO iteration 1: need to repeat for 0000151971 particles. (took 0.0228231 sec)
SO iteration 2: need to repeat for 0000151971 particles. (took 0.0181589 sec)
SO iteration 3: need to repeat for 0000151971 particles. (took 0.0169499 sec)
SO iteration 4: need to repeat for 0000151971 particles. (took 0.0186982 sec)
SO iteration 5: need to repeat for 0000151971 particles. (took 0.0181119 sec)
SO iteration 6: need to repeat for 0000151971 particles. (took 0.0179219 sec)
SO iteration 7: need to repeat for 0000151971 particles. (took 0.0178919 sec)
SO iteration 8: need to repeat for 0000151971 particles. (took 0.017931 sec)
SO iteration 9: need to repeat for 0000151971 particles. (took 0.0178859 sec)
SO iteration 10: need to repeat for 0000151971 particles. (took 0.0177319 sec)
SO iteration 11: need to repeat for 0000151971 particles. (took 0.0176609 sec)
SO iteration 12: need to repeat for 0000151971 particles. (took 0.0175881 sec)
SO iteration 13: need to repeat for 0000151971 particles. (took 0.017786 sec)
SO iteration 14: need to repeat for 0000151971 particles. (took 0.0179069 sec)
SO iteration 15: need to repeat for 0000151960 particles. (took 0.0179081 sec)
SO iteration 16: need to repeat for 0000151934 particles. (took 0.0178831 sec)
SO iteration 17: need to repeat for 0000022660 particles. (took 0.0178859 sec)
SO iteration 18: need to repeat for 0000000479 particles. (took 0.00624394 sec)
SO iteration 19: need to repeat for 0000000071 particles. (took 0.000847816 sec)
SO iteration 20: need to repeat for 0000000001 particles. (took 0.000617027 sec)
SO iteration 1: need to repeat for 0000151971 particles. (took 0.0214672 sec)
SO iteration 2: need to repeat for 0000151971 particles. (took 0.0188451 sec)
SO iteration 3: need to repeat for 0000151971 particles. (took 0.0198991 sec)
SO iteration 4: need to repeat for 0000151971 particles. (took 0.0202031 sec)
SO iteration 5: need to repeat for 0000151971 particles. (took 0.0198991 sec)
SO iteration 6: need to repeat for 0000151971 particles. (took 0.020427 sec)
SO iteration 7: need to repeat for 0000151971 particles. (took 0.0200379 sec)
SO iteration 8: need to repeat for 0000151971 particles. (took 0.0202799 sec)
SO iteration 9: need to repeat for 0000151971 particles. (took 0.020031 sec)
SO iteration 10: need to repeat for 0000151971 particles. (took 0.0212412 sec)
SO iteration 11: need to repeat for 0000151971 particles. (took 0.0224061 sec)
SO iteration 12: need to repeat for 0000151971 particles. (took 0.0202551 sec)
SO iteration 13: need to repeat for 0000151971 particles. (took 0.0202961 sec)
SO iteration 14: need to repeat for 0000151971 particles. (took 0.0201471 sec)
SO iteration 15: need to repeat for 0000151711 particles. (took 0.0200338 sec)
SO iteration 16: need to repeat for 0000001837 particles. (took 0.049876 sec)
SO iteration 17: need to repeat for 0000000083 particles. (took 0.00378609 sec)
SO iteration 18: need to repeat for 0000000007 particles. (took 0.00285101 sec)
SO iteration 1: need to repeat for 0000151971 particles. (took 0.025892 sec)
SO iteration 2: need to repeat for 0000151971 particles. (took 0.0183051 sec)
SO iteration 3: need to repeat for 0000151971 particles. (took 0.0571039 sec)
SO iteration 4: need to repeat for 0000151971 particles. (took 0.0196939 sec)
SO iteration 5: need to repeat for 0000151971 particles. (took 0.0525749 sec)
SO iteration 6: need to repeat for 0000151971 particles. (took 0.0411911 sec)
SO iteration 7: need to repeat for 0000151971 particles. (took 0.019649 sec)
SO iteration 8: need to repeat for 0000151971 particles. (took 0.0193691 sec)
SO iteration 9: need to repeat for 0000151971 particles. (took 0.019367 sec)
SO iteration 10: need to repeat for 0000151971 particles. (took 0.019424 sec)
SO iteration 11: need to repeat for 0000151971 particles. (took 0.0196819 sec)
SO iteration 12: need to repeat for 0000151971 particles. (took 0.0193379 sec)
SO iteration 13: need to repeat for 0000151971 particles. (took 0.0193169 sec)
SO iteration 14: need to repeat for 0000151971 particles. (took 0.019434 sec)
SO iteration 15: need to repeat for 0000151877 particles. (took 0.0196991 sec)
SO iteration 16: need to repeat for 0000021605 particles. (took 0.0199909 sec)
SO iteration 17: need to repeat for 0000000303 particles. (took 0.00687909 sec)
SO iteration 18: need to repeat for 0000000048 particles. (took 0.000848055 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000665188 sec)
SO iteration 1: need to repeat for 0000151971 particles. (took 0.0216341 sec)
SO iteration 2: need to repeat for 0000151971 particles. (took 0.0184438 sec)
SO iteration 3: need to repeat for 0000151971 particles. (took 0.0175409 sec)
SO iteration 4: need to repeat for 0000151971 particles. (took 0.018285 sec)
SO iteration 5: need to repeat for 0000151971 particles. (took 0.0186601 sec)
SO iteration 6: need to repeat for 0000151971 particles. (took 0.018822 sec)
SO iteration 7: need to repeat for 0000151971 particles. (took 0.018271 sec)
SO iteration 8: need to repeat for 0000151971 particles. (took 0.018002 sec)
SO iteration 9: need to repeat for 0000151971 particles. (took 0.018029 sec)
SO iteration 10: need to repeat for 0000151971 particles. (took 0.0197899 sec)
SO iteration 11: need to repeat for 0000151971 particles. (took 0.0179911 sec)
SO iteration 12: need to repeat for 0000151971 particles. (took 0.018013 sec)
SO iteration 13: need to repeat for 0000151971 particles. (took 0.0179858 sec)
SO iteration 14: need to repeat for 0000151971 particles. (took 0.018096 sec)
SO iteration 15: need to repeat for 0000151946 particles. (took 0.017951 sec)
SO iteration 16: need to repeat for 0000151872 particles. (took 0.0180171 sec)
SO iteration 17: need to repeat for 0000003042 particles. (took 0.0179241 sec)
SO iteration 18: need to repeat for 0000000210 particles. (took 0.00173497 sec)
SO iteration 19: need to repeat for 0000000020 particles. (took 0.00067091 sec)
SO iteration 1: need to repeat for 0000151971 particles. (took 0.0211022 sec)
SO iteration 2: need to repeat for 0000151971 particles. (took 0.01827 sec)
SO iteration 3: need to repeat for 0000151971 particles. (took 0.0170701 sec)
SO iteration 4: need to repeat for 0000151971 particles. (took 0.0152199 sec)
SO iteration 5: need to repeat for 0000151971 particles. (took 0.0161989 sec)
SO iteration 6: need to repeat for 0000151971 particles. (took 0.016613 sec)
SO iteration 7: need to repeat for 0000151971 particles. (took 0.0189409 sec)
SO iteration 8: need to repeat for 0000151971 particles. (took 0.0190051 sec)
SO iteration 9: need to repeat for 0000151971 particles. (took 0.016953 sec)
SO iteration 10: need to repeat for 0000151971 particles. (took 0.0172698 sec)
SO iteration 11: need to repeat for 0000151971 particles. (took 0.0173879 sec)
SO iteration 12: need to repeat for 0000151971 particles. (took 0.016979 sec)
SO iteration 13: need to repeat for 0000151971 particles. (took 0.016947 sec)
SO iteration 14: need to repeat for 0000151971 particles. (took 0.0172319 sec)
SO iteration 15: need to repeat for 0000151967 particles. (took 0.0172911 sec)
SO iteration 16: need to repeat for 0000151960 particles. (took 0.016531 sec)
SO iteration 17: need to repeat for 0000151941 particles. (took 0.0168469 sec)
SO iteration 18: need to repeat for 0000008731 particles. (took 0.0167642 sec)
SO iteration 19: need to repeat for 0000000271 particles. (took 0.00318503 sec)
SO iteration 20: need to repeat for 0000000027 particles. (took 0.000931025 sec)
determining spherical overdensity masses took 2.40976 sec
finding spherical overdensity particles took 0.505582 sec
determining contamination of halos took 0.200456 sec
Global sort of Groups took 0.0908041 sec
Global sort of SubGroups took 0.288336 sec
Global sort of IDs took 0.508319 sec
Writing block 0 (GLEN), n=733, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2932d
Writing block 1 (GOFF), n=733, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2932d
Writing block 2 (MTOT), n=733, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2932d
Writing block 3 (GPOS), n=733, ptype=0, dtype=1, ndim=3, bpb=4 bytes=8796d
Writing block 4 (MMEA), n=733, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2932d
Writing block 5 (RMEA), n=733, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2932d
Writing block 6 (MCRI), n=733, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2932d
Writing block 7 (RCRI), n=733, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2932d
Writing block 8 (MTOP), n=733, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2932d
Writing block 9 (RTOP), n=733, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2932d
Writing block 17 (NCON), n=733, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2932d
Writing block 18 (MCON), n=733, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2932d
Writing block 22 (NSUB), n=733, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2932d
Writing block 23 (FSUB), n=733, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2932d
Writing block 24 (SLEN), n=6819, ptype=1, dtype=0, ndim=1, bpb=4 bytes=27276d
Writing block 25 (SOFF), n=6819, ptype=1, dtype=0, ndim=1, bpb=4 bytes=27276d
Writing block 27 (MSUB), n=6819, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 28 (SPOS), n=6819, ptype=1, dtype=1, ndim=3, bpb=4 bytes=81828d
Writing block 29 (SVEL), n=6819, ptype=1, dtype=1, ndim=3, bpb=4 bytes=81828d
Writing block 30 (SCM ), n=6819, ptype=1, dtype=1, ndim=3, bpb=4 bytes=81828d
Writing block 33 (VMAX), n=6819, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 34 (RMAX), n=6819, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 35 (RHMS), n=6819, ptype=1, dtype=1, ndim=6, bpb=4 bytes=163656d
Writing block 36 (MTRH), n=6819, ptype=1, dtype=1, ndim=6, bpb=4 bytes=163656d
Writing block 37 (MBID), n=6819, ptype=1, dtype=2, ndim=1, bpb=8 bytes=54552d
Writing block 38 (GRNR), n=6819, ptype=1, dtype=0, ndim=1, bpb=4 bytes=27276d
Writing block 39 (SUBN), n=6819, ptype=1, dtype=0, ndim=1, bpb=4 bytes=27276d
Writing block 40 (SMST), n=6819, ptype=1, dtype=1, ndim=6, bpb=4 bytes=163656d
Writing block 53 (PID ), n=644020, ptype=2, dtype=2, ndim=1, bpb=8 bytes=5152160d
Writing block 54 (SLEN), n=6819, ptype=1, dtype=0, ndim=6, bpb=4 bytes=163656d
Writing block 55 (STEN), n=6819, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 56 (SKEN), n=6819, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 57 (SUEN), n=6819, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 58 (SUIT), n=6819, ptype=1, dtype=1, ndim=9, bpb=4 bytes=245484d
Writing block 59 (BHMA), n=6819, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 60 (BHMD), n=6819, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 61 (SVD ), n=6819, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 62 (SVDH), n=6819, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 63 (HMPR), n=6819, ptype=1, dtype=1, ndim=6, bpb=4 bytes=163656d
Writing block 64 (SSFR), n=6819, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 65 (SSA ), n=6819, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 66 (SSBZ), n=6819, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 67 (SSIM), n=6819, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 68 (SSPI), n=6819, ptype=4, dtype=1, ndim=3, bpb=4 bytes=81828d
Writing block 69 (GSPI), n=6819, ptype=1, dtype=1, ndim=3, bpb=4 bytes=81828d
Writing block 70 (FSPI), n=6819, ptype=5, dtype=1, ndim=3, bpb=4 bytes=81828d
Writing block 71 (SFM ), n=6819, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 72 (SFMT), n=6819, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 73 (SFME), n=6819, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 74 (SFAE), n=6819, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 75 (SFKE), n=6819, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 76 (SFTE), n=6819, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 77 (SMWP), n=6819, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 78 (SMM ), n=6819, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 79 (SMMS), n=6819, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 80 (SFZ ), n=6819, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 81 (SFZS), n=6819, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 82 (SSIA), n=6819, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 83 (SIAS), n=6819, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 84 (SMET), n=6819, ptype=5, dtype=1, ndim=9, bpb=4 bytes=245484d
Writing block 85 (SMTS), n=6819, ptype=5, dtype=1, ndim=9, bpb=4 bytes=245484d
Writing block 86 (MF1 ), n=6819, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 87 (MeF1), n=6819, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 88 (MF  ), n=6819, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 89 (MeF2), n=6819, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 90 (MFA ), n=6819, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 91 (MeFA), n=6819, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 92 (NSPI), n=6819, ptype=6, dtype=1, ndim=3, bpb=4 bytes=81828d
Writing block 93 (NFM ), n=6819, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 94 (NFMT), n=6819, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 95 (NFME), n=6819, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 96 (NFAE), n=6819, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 97 (NFKE), n=6819, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 98 (NFTE), n=6819, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 99 (SMWP), n=6819, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 100 (SMM ), n=6819, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 101 (SMMS), n=6819, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 102 (SSIA), n=6819, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 103 (SIAS), n=6819, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 104 (SMET), n=6819, ptype=6, dtype=1, ndim=9, bpb=4 bytes=245484d
Writing block 105 (SMTS), n=6819, ptype=6, dtype=1, ndim=9, bpb=4 bytes=245484d
Writing block 106 (MF1 ), n=6819, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 107 (MeF1), n=6819, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 108 (MF2 ), n=6819, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 109 (MeF2), n=6819, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 110 (MFA ), n=6819, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 111 (MeFA), n=6819, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 112 (SM  ), n=6819, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 113 (SFKE), n=6819, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 114 (SFAE), n=6819, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 115 (SMWP), n=6819, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 116 (SMM ), n=6819, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 117 (SMMS), n=6819, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 118 (SSIA), n=6819, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 119 (SIAS), n=6819, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 120 (SMET), n=6819, ptype=4, dtype=1, ndim=9, bpb=4 bytes=245484d
Writing block 121 (SMTS), n=6819, ptype=4, dtype=1, ndim=9, bpb=4 bytes=245484d
Writing block 122 (MF1 ), n=6819, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 123 (MeF1), n=6819, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 124 (MF2 ), n=6819, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 125 (MeF2), n=6819, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 126 (MFA ), n=6819, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 127 (MeFA), n=6819, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27276d
Writing block 128 (MMe5), n=733, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2932d
Writing block 129 (RMe5), n=733, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2932d
Writing block 130 (MCr5), n=733, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2932d
Writing block 131 (RCr5), n=733, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2932d
Writing block 132 (MMe2), n=733, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2932d
Writing block 133 (RMe2), n=733, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2932d
Writing block 134 (MCr2), n=733, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2932d
Writing block 135 (RCr2), n=733, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2932d
Writing block 136 (MAPT), n=6819, ptype=7, dtype=1, ndim=60, bpb=4 bytes=1636560d
Writing block 137 (SAPT), n=6819, ptype=8, dtype=1, ndim=10, bpb=4 bytes=272760d
Writing block 138 (VAPT), n=6819, ptype=9, dtype=1, ndim=10, bpb=4 bytes=272760d
Writing block 139 (BEGY), n=644020, ptype=2, dtype=1, ndim=1, bpb=4 bytes=2576080d
Subgroup catalogues saved. took = 7.38182 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 6.180840e-01
 eagle_ph_key_ort: type= 2 timed by volker 6.612110e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.039097e-02
 eagle_ph_key_ort: type= 4 timed by volker 4.039097e-02
 eagle_ph_key_ort: type= 5 timed by volker 4.039097e-02
 eagle_ph_key_ort: timing parallel sort = 7.348721e-01
 eagle_fetch_elements: we are using 1603716403 bytes of memory, FreeBytes= 2004645504

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 3538.22 Mbyte (on task=0), Smallest = 1316.46 Mbyte, Average = 1357.11 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      9.8873    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 2977 0   sort_index_data     24.5290    3538.2211  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1933699 number of bytes = 618783680

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 5067.64 Mbyte (on task=0), Smallest = 2845.36 Mbyte, Average = 2886.41 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 2977 0   sort_index_data     24.5290    3538.2211  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      7.3765    3545.5975  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      7.3765    3552.9740  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      7.3765    3560.3505  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    590.1181    4150.4686  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    590.1181    4740.5867  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    327.0538    5067.6405  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.087684e+00
 eagle_fetch_elements: we are using 1603716403 bytes of memory, FreeBytes= 2004645504
 eagle_fetch_elements: max_bytes= 504, max_elements= 1572270 number of bytes = 792424080
 eagle_ph_key_ort: timing parallel SphP exchange = 1.610041e-03
 eagle_fetch_elements: we are using 1603716403 bytes of memory, FreeBytes= 2004645504
 eagle_fetch_elements: max_bytes= 384, max_elements= 2056046 number of bytes = 789521664
 eagle_ph_key_ort: timing parallel MetP exchange = 4.770756e-04
 eagle_fetch_elements: we are using 1603716403 bytes of memory, FreeBytes= 2004645504
 eagle_fetch_elements: max_bytes= 256, max_elements= 3060527 number of bytes = 783494912
 eagle_ph_key_ort: timing parallel BHP exchange = 4.382133e-04
Sorting particle-data by peano-hilbert key took = 3.20401 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1603716403 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1933699 number of bytes= 618783680
 eagle_ph_restore: timing parallel P exchange = 2.043438e+00
 eagle_send_elements: we are using 1603716403 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1572270 number of bytes= 792424080
 eagle_ph_restore: timing parallel SphP exchange = 1.098156e-03
 eagle_send_elements: we are using 1603716403 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2056046 number of bytes= 789521664
 eagle_ph_restore: timing parallel MetP exchange = 6.959438e-04
 eagle_send_elements: we are using 1603716403 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 3060527 number of bytes= 783494912
 eagle_ph_restore: timing parallel BHP exchange = 7.140636e-04
Restoring original order after ph key sorting took = 2.06268 sec

finished writing particle file...

Finished with SUBFIND.  (total time=5394.21 sec)

Finished computing FoF groups.  (presently allocated=1202.9 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=178593
After=199281
NTopleaves= 174371  NTopnodes=199281 (space for 244687)
gravity work-load balance=1.00049   memory-balance=1.00049   SPH work-load balance=0
iter=0 exchange of 0273138963 particles (ret=0)
domain decomposition done. (took 3.51717 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.07852 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


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 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


 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
 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
 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
 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
 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
 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 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 64: endrun called with an error level of 124


task 64: endrun called with an error level of 124


task 80: endrun called with an error level of 124


task 80: endrun called with an error level of 124


task 128: 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


task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


task 144: endrun called with an error level of 124


task 144: endrun called with an error level of 124


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 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
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
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
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
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
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
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 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 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 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 176: endrun called with an error level of 124


task 176: endrun called with an error level of 124


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 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
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 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 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


 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
Finished FOF, total time doing fof/subfind = 5458.84 s
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
 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 =   63013.39 Mb (on task=253), Smallest =   62735.04 Mb (on task=0), Average =   62810.12 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=88), Smallest =   64531.98 Mb (on task=121), Average =   64532.08 Mb
Committed_AS:	 Largest =    1797.02 Mb (on task=0), Smallest =    1518.67 Mb (on task=253), Average =    1721.96 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16358.93 Mb (on task=165), Smallest =   16262.80 Mb (on task=33), Average =   16337.67 Mb
AllocMem:	 Largest =    1797.02 Mb (on task=0), Smallest =    1518.67 Mb (on task=253), Average =    1721.96 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin052

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.N11':
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                         5450
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=3.68425 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 10.0181 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.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities 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...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities 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 3.52942 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 8.51258 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 6.12281 sec)
have done 0000442572 cross links (processed 0054706752, took 5.99537 sec)
have done 0000320021 cross links (processed 0046452383, took 5.72457 sec)
have done 0000223726 cross links (processed 0035617138, took 4.97799 sec)
have done 0000151544 cross links (processed 0024441608, took 5.23656 sec)
have done 0000100610 cross links (processed 0016697375, took 4.81076 sec)
have done 0000065372 cross links (processed 0012178530, took 4.7524 sec)
have done 0000039632 cross links (processed 0006269360, took 2.91618 sec)
have done 0000021499 cross links (processed 0002614320, took 4.1513 sec)
have done 0000011752 cross links (processed 0000613331, took 0.174346 sec)
have done 0000007659 cross links (processed 0000608783, took 0.135321 sec)
have done 0000007584 cross links (processed 0001289100, took 0.738188 sec)
have done 0000007297 cross links (processed 0001412471, took 1.72552 sec)
have done 0000004925 cross links (processed 0000210496, took 0.108114 sec)
have done 0000002291 cross links (processed 0000179652, took 0.680658 sec)
have done 0000000872 cross links (processed 0000018677, took 0.0506151 sec)
have done 0000000358 cross links (processed 0000005130, took 0.045861 sec)
have done 0000000134 cross links (processed 0000001864, took 0.0451698 sec)
have done 0000000042 cross links (processed 0000000667, took 0.0447209 sec)
have done 0000000014 cross links (processed 0000000256, took 0.0448239 sec)
have done 0000000015 cross links (processed 0000000168, took 0.044688 sec)
have done 0000000006 cross links (processed 0000000100, took 0.044853 sec)
have done 0000000005 cross links (processed 0000000048, took 0.0447879 sec)
have done 0000000003 cross links (processed 0000000080, took 0.0445871 sec)
have done 0000000001 cross links (processed 0000000018, took 0.044559 sec)
have done 0000000003 cross links (processed 0000000009, took 0.0446332 sec)
have done 0000000001 cross links (processed 0000000010, took 0.044683 sec)
have done 0000000000 cross links (processed 0000000002, took 0.0445631 sec)
Local groups found.

group finding took = 57.4876 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 = 0.109796 sec
compiling local group data and catalogue took = 0.59006 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 = 0.0761511 sec
start global sorting of group catalogues number 25
LargestGroup = 15919.927299; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0514519 sec
Group catalogues globally sorted. took = 0.747766 sec
starting saving of group catalogue number 25
data//groups_025_z000p113
Group catalogues number 25 saved. took = 2.28792 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.741318 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.262383 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.682168 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0192970869 particles. (took 19.9763 sec)
ngb iteration 2: need to repeat for 0149478366 particles. (took 9.82803 sec)
ngb iteration 3: need to repeat for 0130955528 particles. (took 7.0287 sec)
ngb iteration 4: need to repeat for 0118915650 particles. (took 5.77339 sec)
ngb iteration 5: need to repeat for 0106052478 particles. (took 4.96862 sec)
ngb iteration 6: need to repeat for 0088196879 particles. (took 4.42253 sec)
ngb iteration 7: need to repeat for 0066346309 particles. (took 3.70402 sec)
ngb iteration 8: need to repeat for 0045320794 particles. (took 2.90889 sec)
ngb iteration 9: need to repeat for 0028750501 particles. (took 2.12622 sec)
ngb iteration 10: need to repeat for 0017343827 particles. (took 1.47102 sec)
ngb iteration 11: need to repeat for 0010157072 particles. (took 0.961319 sec)
ngb iteration 12: need to repeat for 0005862394 particles. (took 0.599975 sec)
ngb iteration 13: need to repeat for 0003370494 particles. (took 0.417042 sec)
ngb iteration 14: need to repeat for 0001843008 particles. (took 0.24359 sec)
ngb iteration 15: need to repeat for 0000876437 particles. (took 0.160674 sec)
ngb iteration 16: need to repeat for 0000459760 particles. (took 0.0990229 sec)
ngb iteration 17: need to repeat for 0000253493 particles. (took 0.072407 sec)
ngb iteration 18: need to repeat for 0000143308 particles. (took 0.059098 sec)
ngb iteration 19: need to repeat for 0000081115 particles. (took 0.0516729 sec)
ngb iteration 20: need to repeat for 0000044828 particles. (took 0.0470228 sec)
ngb iteration 21: need to repeat for 0000024212 particles. (took 0.0463531 sec)
ngb iteration 22: need to repeat for 0000012546 particles. (took 0.042603 sec)
ngb iteration 23: need to repeat for 0000006114 particles. (took 0.041549 sec)
ngb iteration 24: need to repeat for 0000002854 particles. (took 0.04105 sec)
ngb iteration 25: need to repeat for 0000001293 particles. (took 0.0407691 sec)
ngb iteration 26: need to repeat for 0000000510 particles. (took 0.0401468 sec)
ngb iteration 27: need to repeat for 0000000202 particles. (took 0.0398231 sec)
ngb iteration 28: need to repeat for 0000000062 particles. (took 0.0400572 sec)
ngb iteration 29: need to repeat for 0000000023 particles. (took 0.0397592 sec)
ngb iteration 30: need to repeat for 0000000005 particles. (took 0.0397871 sec)
ngb iteration 31: need to repeat for 0000000002 particles. (took 0.0398159 sec)
ngb iteration 32: need to repeat for 0000000002 particles. (took 0.0398161 sec)
final operations ... 
density and smoothing length for species 1 took 65.7703 sec
Tree construction.
tree build took 0.685016 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.261862 sec
Tree construction.
tree build took 0.679299 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.262663 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.129936 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.99381 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.679309 sec
density() of species 1 took 1.90735e-06 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.128147 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.91085 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.132753 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.90497 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.833455 sec
saving densities took 2.27594 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 1.5097 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 0.987894 sec)
Freed 3.28958 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 3998.71 Mbyte (on task=0), Smallest = 1800.01 Mbyte, Average = 1840.47 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      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
   0 2982 0     Extnodes_base    213.4305    3969.4430  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode     14.9625    3984.4055  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father     14.3032    3998.7087  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.40566 sec  (presently allocated=3998.71 MB)
force_treebuild() took 1.71626 sec (presently allocated=3998.71 MB)
Start find_linkngb (79112 particles on task=0)
find linkngb iteration 1: need to repeat for 0018138751 particles. (took 1.57246 sec)
find linkngb iteration 2: need to repeat for 0016081997 particles. (took 1.05998 sec)
find linkngb iteration 3: need to repeat for 0015318845 particles. (took 0.720857 sec)
find linkngb iteration 4: need to repeat for 0013305812 particles. (took 0.805167 sec)
find linkngb iteration 5: need to repeat for 0011022529 particles. (took 0.694739 sec)
find linkngb iteration 6: need to repeat for 0007973569 particles. (took 0.611454 sec)
find linkngb iteration 7: need to repeat for 0005011791 particles. (took 0.422684 sec)
find linkngb iteration 8: need to repeat for 0002849899 particles. (took 0.261673 sec)
find linkngb iteration 9: need to repeat for 0001526606 particles. (took 0.15336 sec)
find linkngb iteration 10: need to repeat for 0000792217 particles. (took 0.0909941 sec)
find linkngb iteration 11: need to repeat for 0000402709 particles. (took 0.0526111 sec)
find linkngb iteration 12: need to repeat for 0000084744 particles. (took 0.0315609 sec)
find linkngb iteration 13: need to repeat for 0000001875 particles. (took 0.011379 sec)
find linkngb iteration 14: need to repeat for 0000000633 particles. (took 0.00103879 sec)
find linkngb iteration 15: need to repeat for 0000000240 particles. (took 0.000650883 sec)
find linkngb iteration 16: need to repeat for 0000000076 particles. (took 0.000588894 sec)
find linkngb iteration 17: need to repeat for 0000000026 particles. (took 0.000580072 sec)
find linkngb iteration 18: need to repeat for 0000000008 particles. (took 0.000534058 sec)
find_linkngb() took 6.49453 sec
Start finding nearest two (79112 particles on task=0)
find_nearesttwo() took 1.12653 sec (presently allocated=4004.74 MB)
parallel sort of densities done. took 0.102739 sec
building distributed linked list. (presently allocated 4003.96 MB)
identification of primary candidates took 512.973 sec
adding background as candidate took 0.163727 sec
establishing of rank order took 149.363 sec  (p=20224276, grouplen=20224276) presently allocated 4003.96 MB

total number of subhalo candidates=99216

number of subhalo candidates that can be done independently=86824.
(Largest size is 4015, finding them took 0.0661509 sec)
particles are marked (took 116.244)
independent subhalos are assembled on individual CPUs for unbinding (0.217201 sec, (presently allocated=4003.96 MB)
unbinding of independent ones took 0.140065 sec
particles have returned to their original processor (0.273516 sec, presently allocated 4003.96 MB)

number of subhalo candidates that can be done independently=11394.
(Largest size is 46435, finding them took 0.929112 sec)
particles are marked (took 78.3159)
independent subhalos are assembled on individual CPUs for unbinding (0.184816 sec, (presently allocated=4003.96 MB)
unbinding of independent ones took 1.94532 sec
particles have returned to their original processor (0.239962 sec, presently allocated 4003.96 MB)

number of subhalo candidates that can be done independently=925.
(Largest size is 129036, finding them took 0.897867 sec)
particles are marked (took 65.0152)
independent subhalos are assembled on individual CPUs for unbinding (0.175435 sec, (presently allocated=4003.96 MB)
unbinding of independent ones took 5.91888 sec
particles have returned to their original processor (0.235974 sec, presently allocated 4003.96 MB)

number of subhalo candidates that can be done independently=64.
(Largest size is 286775, finding them took 0.989172 sec)
particles are marked (took 49.8137)
independent subhalos are assembled on individual CPUs for unbinding (0.149013 sec, (presently allocated=4003.96 MB)
unbinding of independent ones took 1.9741 sec
particles have returned to their original processor (0.210795 sec, presently allocated 4003.96 MB)

number of subhalo candidates that can be done independently=3.
(Largest size is 286775, finding them took 0.475336 sec)
particles are marked (took 45.8029)
independent subhalos are assembled on individual CPUs for unbinding (0.140479 sec, (presently allocated=4003.96 MB)
unbinding of independent ones took 0.0918012 sec
particles have returned to their original processor (0.198489 sec, presently allocated 4003.96 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 286775, finding them took 0.489108 sec)
too few, I do the rest of 6 collectively

collective unbinding of nr=0 (6) of length=239610 ... maximum alloacted 4004.26 MB
took 4.44544 sec
collective unbinding of nr=1 (6) of length=218241 ... maximum alloacted 4004.26 MB
took 5.63333 sec
collective unbinding of nr=2 (6) of length=240531 ... maximum alloacted 4004.26 MB
took 4.97739 sec
collective unbinding of nr=3 (6) of length=286775 ... maximum alloacted 4004.26 MB
took 5.32748 sec
collective unbinding of nr=4 (6) of length=5888783 ... maximum alloacted 4004.26 MB
took 90.7715 sec
collective unbinding of nr=5 (6) of length=20224276 ... maximum alloacted 4004.26 MB
took 331.693 sec

the collective unbinding of remaining halos took 487.122 sec

found 6049 bound substructures in FoF group of length 20224276
determination of parent subhalo took 0.0978029 sec (presently allocated 4004.26 MB)
determining substructure properties took 441.436 sec (presently allocated 4004.26 MB)

collectively doing halo 2, 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)
Before=132209
After=166009
NTopleaves= 145258  NTopnodes=166009 (space for 244687)
gravity work-load balance=1.00062   memory-balance=1.00062   SPH work-load balance=0
iter=0 exchange of 0011769341 particles (ret=0)
domain decomposition done. (took 0.933747 sec)
Freed 3.60159 MByte in top-level domain structure
coldomain_Decomposition() took 1.34165 sec  (presently allocated=3997.18 MB)
force_treebuild() took 1.67971 sec (presently allocated=3997.18 MB)
Start find_linkngb (45846 particles on task=0)
find linkngb iteration 1: need to repeat for 0011259875 particles. (took 0.890415 sec)
find linkngb iteration 2: need to repeat for 0010318597 particles. (took 0.627067 sec)
find linkngb iteration 3: need to repeat for 0009839118 particles. (took 0.429307 sec)
find linkngb iteration 4: need to repeat for 0008610201 particles. (took 0.485248 sec)
find linkngb iteration 5: need to repeat for 0007153165 particles. (took 0.415003 sec)
find linkngb iteration 6: need to repeat for 0005181705 particles. (took 0.344236 sec)
find linkngb iteration 7: need to repeat for 0003259705 particles. (took 0.245415 sec)
find linkngb iteration 8: need to repeat for 0001853435 particles. (took 0.180676 sec)
find linkngb iteration 9: need to repeat for 0000992941 particles. (took 0.14009 sec)
find linkngb iteration 10: need to repeat for 0000514655 particles. (took 0.0564101 sec)
find linkngb iteration 11: need to repeat for 0000261948 particles. (took 0.033402 sec)
find linkngb iteration 12: need to repeat for 0000055656 particles. (took 0.0226948 sec)
find linkngb iteration 13: need to repeat for 0000001309 particles. (took 0.00890899 sec)
find linkngb iteration 14: need to repeat for 0000000425 particles. (took 0.000820875 sec)
find linkngb iteration 15: need to repeat for 0000000162 particles. (took 0.000555992 sec)
find linkngb iteration 16: need to repeat for 0000000049 particles. (took 0.000448942 sec)
find linkngb iteration 17: need to repeat for 0000000019 particles. (took 0.000445127 sec)
find linkngb iteration 18: need to repeat for 0000000003 particles. (took 0.000406981 sec)
find linkngb iteration 19: need to repeat for 0000000002 particles. (took 0.000431061 sec)
find_linkngb() took 3.88301 sec
Start finding nearest two (45846 particles on task=0)
find_nearesttwo() took 0.667274 sec (presently allocated=4000.68 MB)
parallel sort of densities done. took 0.064095 sec
building distributed linked list. (presently allocated 4000.22 MB)
identification of primary candidates took 279.206 sec
adding background as candidate took 0.159248 sec
establishing of rank order took 88.6918 sec  (p=11820692, grouplen=11820692) presently allocated 4000.22 MB

total number of subhalo candidates=58822

number of subhalo candidates that can be done independently=50981.
(Largest size is 8133, finding them took 0.0157621 sec)
particles are marked (took 68.7627)
independent subhalos are assembled on individual CPUs for unbinding (0.180528 sec, (presently allocated=4000.22 MB)
unbinding of independent ones took 0.198698 sec
particles have returned to their original processor (0.235283 sec, presently allocated 4000.22 MB)

number of subhalo candidates that can be done independently=7183.
(Largest size is 13973, finding them took 0.900869 sec)
particles are marked (took 47.4585)
independent subhalos are assembled on individual CPUs for unbinding (0.168835 sec, (presently allocated=4000.22 MB)
unbinding of independent ones took 0.453675 sec
particles have returned to their original processor (0.222235 sec, presently allocated 4000.22 MB)

number of subhalo candidates that can be done independently=610.
(Largest size is 55253, finding them took 0.880034 sec)
particles are marked (took 37.0924)
independent subhalos are assembled on individual CPUs for unbinding (0.158712 sec, (presently allocated=4000.22 MB)
unbinding of independent ones took 1.89635 sec
particles have returned to their original processor (0.216462 sec, presently allocated 4000.22 MB)

number of subhalo candidates that can be done independently=42.
(Largest size is 181097, finding them took 1.01781 sec)
particles are marked (took 30.7628)
independent subhalos are assembled on individual CPUs for unbinding (0.149097 sec, (presently allocated=4000.22 MB)
unbinding of independent ones took 2.40913 sec
particles have returned to their original processor (0.212403 sec, presently allocated 4000.22 MB)

number of subhalo candidates that can be done independently=4.
(Largest size is 181097, finding them took 0.450578 sec)
particles are marked (took 28.4551)
independent subhalos are assembled on individual CPUs for unbinding (0.143086 sec, (presently allocated=4000.22 MB)
unbinding of independent ones took 2.79681 sec
particles have returned to their original processor (0.205375 sec, presently allocated 4000.22 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 181097, finding them took 0.443676 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=181097 ... maximum alloacted 4000.4 MB
took 3.92518 sec
collective unbinding of nr=1 (2) of length=11820692 ... maximum alloacted 4000.4 MB
took 192.974 sec

the collective unbinding of remaining halos took 223.143 sec

found 3826 bound substructures in FoF group of length 11820692
determination of parent subhalo took 0.0425079 sec (presently allocated 4000.4 MB)
determining substructure properties took 222.532 sec (presently allocated 4000.4 MB)

collectively doing halo 3, 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)
Before=138537
After=165433
NTopleaves= 144754  NTopnodes=165433 (space for 244687)
gravity work-load balance=1.00054   memory-balance=1.00054   SPH work-load balance=0
iter=0 exchange of 0005918960 particles (ret=0)
domain decomposition done. (took 0.859299 sec)
Freed 3.62796 MByte in top-level domain structure
coldomain_Decomposition() took 1.26422 sec  (presently allocated=3997.05 MB)
force_treebuild() took 1.66089 sec (presently allocated=3997.05 MB)
Start find_linkngb (23221 particles on task=0)
find linkngb iteration 1: need to repeat for 0005865369 particles. (took 0.427417 sec)
find linkngb iteration 2: need to repeat for 0005620468 particles. (took 0.301412 sec)
find linkngb iteration 3: need to repeat for 0005374278 particles. (took 0.204378 sec)
find linkngb iteration 4: need to repeat for 0004763722 particles. (took 0.231947 sec)
find linkngb iteration 5: need to repeat for 0003977347 particles. (took 0.198675 sec)
find linkngb iteration 6: need to repeat for 0002887327 particles. (took 0.164129 sec)
find linkngb iteration 7: need to repeat for 0001820994 particles. (took 0.118435 sec)
find linkngb iteration 8: need to repeat for 0001038291 particles. (took 0.0777051 sec)
find linkngb iteration 9: need to repeat for 0000556301 particles. (took 0.049798 sec)
find linkngb iteration 10: need to repeat for 0000288899 particles. (took 0.0300179 sec)
find linkngb iteration 11: need to repeat for 0000147031 particles. (took 0.0195131 sec)
find linkngb iteration 12: need to repeat for 0000031899 particles. (took 0.0130351 sec)
find linkngb iteration 13: need to repeat for 0000001005 particles. (took 0.00665903 sec)
find linkngb iteration 14: need to repeat for 0000000374 particles. (took 0.000653028 sec)
find linkngb iteration 15: need to repeat for 0000000147 particles. (took 0.000428915 sec)
find linkngb iteration 16: need to repeat for 0000000053 particles. (took 0.000381947 sec)
find linkngb iteration 17: need to repeat for 0000000014 particles. (took 0.000375986 sec)
find linkngb iteration 18: need to repeat for 0000000004 particles. (took 0.000337839 sec)
find_linkngb() took 1.84616 sec
Start finding nearest two (23221 particles on task=0)
find_nearesttwo() took 0.346084 sec (presently allocated=3998.82 MB)
parallel sort of densities done. took 0.0461769 sec
building distributed linked list. (presently allocated 3998.59 MB)
identification of primary candidates took 146.915 sec
adding background as candidate took 0.159079 sec
establishing of rank order took 46.2997 sec  (p=5944206, grouplen=5944206) presently allocated 3998.59 MB

total number of subhalo candidates=26796

number of subhalo candidates that can be done independently=23662.
(Largest size is 3614, finding them took 0.00717211 sec)
particles are marked (took 32.2378)
independent subhalos are assembled on individual CPUs for unbinding (0.155094 sec, (presently allocated=3998.59 MB)
unbinding of independent ones took 0.0685019 sec
particles have returned to their original processor (0.210745 sec, presently allocated 3998.59 MB)

number of subhalo candidates that can be done independently=2867.
(Largest size is 16882, finding them took 0.859936 sec)
particles are marked (took 22.1918)
independent subhalos are assembled on individual CPUs for unbinding (0.154948 sec, (presently allocated=3998.59 MB)
unbinding of independent ones took 0.657645 sec
particles have returned to their original processor (0.212649 sec, presently allocated 3998.59 MB)

number of subhalo candidates that can be done independently=243.
(Largest size is 134447, finding them took 0.821661 sec)
particles are marked (took 20.0061)
independent subhalos are assembled on individual CPUs for unbinding (0.163462 sec, (presently allocated=3998.59 MB)
unbinding of independent ones took 4.1937 sec
particles have returned to their original processor (0.230456 sec, presently allocated 3998.59 MB)

number of subhalo candidates that can be done independently=21.
(Largest size is 148487, finding them took 0.566836 sec)
particles are marked (took 16.0006)
independent subhalos are assembled on individual CPUs for unbinding (0.174853 sec, (presently allocated=3998.59 MB)
unbinding of independent ones took 3.84404 sec
particles have returned to their original processor (0.244934 sec, presently allocated 3998.59 MB)

number of subhalo candidates that can be done independently=2.
(Largest size is 89721, finding them took 0.43937 sec)
particles are marked (took 13.6743)
independent subhalos are assembled on individual CPUs for unbinding (0.144565 sec, (presently allocated=3998.59 MB)
unbinding of independent ones took 1.52186 sec
particles have returned to their original processor (0.208589 sec, presently allocated 3998.59 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 5944206, finding them took 0.44021 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=5944206 ... maximum alloacted 3998.68 MB
took 101.318 sec

the collective unbinding of remaining halos took 113.204 sec

found 2277 bound substructures in FoF group of length 5944206
determination of parent subhalo took 0.0321009 sec (presently allocated 3998.68 MB)
determining substructure properties took 121.065 sec (presently allocated 3998.68 MB)

collectively doing halo 4, 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)
Before=143697
After=167057
NTopleaves= 146175  NTopnodes=167057 (space for 244687)
gravity work-load balance=1.00055   memory-balance=1.00055   SPH work-load balance=0
iter=0 exchange of 0004486553 particles (ret=0)
domain decomposition done. (took 0.858055 sec)
Freed 3.55362 MByte in top-level domain structure
coldomain_Decomposition() took 1.26305 sec  (presently allocated=3997.41 MB)
force_treebuild() took 1.6281 sec (presently allocated=3997.41 MB)
Start find_linkngb (17553 particles on task=0)
find linkngb iteration 1: need to repeat for 0004472406 particles. (took 0.314466 sec)
find linkngb iteration 2: need to repeat for 0004340275 particles. (took 0.216392 sec)
find linkngb iteration 3: need to repeat for 0004154832 particles. (took 0.148746 sec)
find linkngb iteration 4: need to repeat for 0003700997 particles. (took 0.171278 sec)
find linkngb iteration 5: need to repeat for 0003095837 particles. (took 0.146361 sec)
find linkngb iteration 6: need to repeat for 0002251020 particles. (took 0.121724 sec)
find linkngb iteration 7: need to repeat for 0001418962 particles. (took 0.0898581 sec)
find linkngb iteration 8: need to repeat for 0000808804 particles. (took 0.0599849 sec)
find linkngb iteration 9: need to repeat for 0000434322 particles. (took 0.0388901 sec)
find linkngb iteration 10: need to repeat for 0000225208 particles. (took 0.0246761 sec)
find linkngb iteration 11: need to repeat for 0000114150 particles. (took 0.0163882 sec)
find linkngb iteration 12: need to repeat for 0000024420 particles. (took 0.011416 sec)
find linkngb iteration 13: need to repeat for 0000000785 particles. (took 0.00612807 sec)
find linkngb iteration 14: need to repeat for 0000000311 particles. (took 0.00057888 sec)
find linkngb iteration 15: need to repeat for 0000000119 particles. (took 0.000467062 sec)
find linkngb iteration 16: need to repeat for 0000000042 particles. (took 0.000349045 sec)
find linkngb iteration 17: need to repeat for 0000000008 particles. (took 0.000328779 sec)
find linkngb iteration 18: need to repeat for 0000000002 particles. (took 0.00032711 sec)
find_linkngb() took 1.36918 sec
Start finding nearest two (17553 particles on task=0)
find_nearesttwo() took 0.265107 sec (presently allocated=3998.75 MB)
parallel sort of densities done. took 0.0425389 sec
building distributed linked list. (presently allocated 3998.58 MB)
identification of primary candidates took 112.063 sec
adding background as candidate took 0.158414 sec
establishing of rank order took 35.6903 sec  (p=4504928, grouplen=4504928) presently allocated 3998.58 MB

total number of subhalo candidates=19890

number of subhalo candidates that can be done independently=17638.
(Largest size is 3825, finding them took 0.00545311 sec)
particles are marked (took 24.1017)
independent subhalos are assembled on individual CPUs for unbinding (0.151593 sec, (presently allocated=3998.58 MB)
unbinding of independent ones took 0.0649931 sec
particles have returned to their original processor (0.207238 sec, presently allocated 3998.58 MB)

number of subhalo candidates that can be done independently=2072.
(Largest size is 40236, finding them took 0.851298 sec)
particles are marked (took 16.2754)
independent subhalos are assembled on individual CPUs for unbinding (0.149948 sec, (presently allocated=3998.58 MB)
unbinding of independent ones took 0.992117 sec
particles have returned to their original processor (0.210251 sec, presently allocated 3998.58 MB)

number of subhalo candidates that can be done independently=163.
(Largest size is 105803, finding them took 1.01441 sec)
particles are marked (took 15.7375)
independent subhalos are assembled on individual CPUs for unbinding (0.158082 sec, (presently allocated=3998.58 MB)
unbinding of independent ones took 3.90498 sec
particles have returned to their original processor (0.228267 sec, presently allocated 3998.58 MB)

number of subhalo candidates that can be done independently=16.
(Largest size is 36479, finding them took 0.433725 sec)
particles are marked (took 11.7774)
independent subhalos are assembled on individual CPUs for unbinding (0.14385 sec, (presently allocated=3998.58 MB)
unbinding of independent ones took 0.934857 sec
particles have returned to their original processor (0.206398 sec, presently allocated 3998.58 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 4504928, finding them took 0.431411 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=4504928 ... maximum alloacted 3998.65 MB
took 75.1851 sec

the collective unbinding of remaining halos took 84.0787 sec

found 1669 bound substructures in FoF group of length 4504928
determination of parent subhalo took 0.0304999 sec (presently allocated 3998.65 MB)
determining substructure properties took 90.2197 sec (presently allocated 3998.65 MB)

collectively doing halo 5, 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)
Before=143281
After=166649
NTopleaves= 145818  NTopnodes=166649 (space for 244687)
gravity work-load balance=1.00068   memory-balance=1.00068   SPH work-load balance=0
iter=0 exchange of 0003213999 particles (ret=0)
domain decomposition done. (took 0.8361 sec)
Freed 3.5723 MByte in top-level domain structure
coldomain_Decomposition() took 1.24171 sec  (presently allocated=3997.32 MB)
force_treebuild() took 1.59185 sec (presently allocated=3997.32 MB)
Start find_linkngb (12542 particles on task=0)
find linkngb iteration 1: need to repeat for 0003217318 particles. (took 0.22187 sec)
find linkngb iteration 2: need to repeat for 0003158183 particles. (took 0.148004 sec)
find linkngb iteration 3: need to repeat for 0003029585 particles. (took 0.104944 sec)
find linkngb iteration 4: need to repeat for 0002714669 particles. (took 0.117445 sec)
find linkngb iteration 5: need to repeat for 0002278508 particles. (took 0.102096 sec)
find linkngb iteration 6: need to repeat for 0001661098 particles. (took 0.0864241 sec)
find linkngb iteration 7: need to repeat for 0001048724 particles. (took 0.063925 sec)
find linkngb iteration 8: need to repeat for 0000598608 particles. (took 0.043716 sec)
find linkngb iteration 9: need to repeat for 0000321462 particles. (took 0.0282891 sec)
find linkngb iteration 10: need to repeat for 0000167250 particles. (took 0.0187781 sec)
find linkngb iteration 11: need to repeat for 0000085147 particles. (took 0.0130389 sec)
find linkngb iteration 12: need to repeat for 0000018730 particles. (took 0.00982094 sec)
find linkngb iteration 13: need to repeat for 0000000661 particles. (took 0.00561094 sec)
find linkngb iteration 14: need to repeat for 0000000237 particles. (took 0.00052309 sec)
find linkngb iteration 15: need to repeat for 0000000085 particles. (took 0.000401974 sec)
find linkngb iteration 16: need to repeat for 0000000030 particles. (took 0.000333071 sec)
find linkngb iteration 17: need to repeat for 0000000008 particles. (took 0.000359058 sec)
find linkngb iteration 18: need to repeat for 0000000002 particles. (took 0.000338078 sec)
find linkngb iteration 19: need to repeat for 0000000001 particles. (took 0.000304937 sec)
find_linkngb() took 0.967002 sec
Start finding nearest two (12542 particles on task=0)
find_nearesttwo() took 0.192255 sec (presently allocated=3998.28 MB)
parallel sort of densities done. took 0.0363491 sec
building distributed linked list. (presently allocated 3998.15 MB)
identification of primary candidates took 82.6598 sec
adding background as candidate took 0.158721 sec
establishing of rank order took 25.5204 sec  (p=3225705, grouplen=3225705) presently allocated 3998.15 MB

total number of subhalo candidates=13226

number of subhalo candidates that can be done independently=11917.
(Largest size is 4031, finding them took 0.00373888 sec)
particles are marked (took 16.5189)
independent subhalos are assembled on individual CPUs for unbinding (0.146814 sec, (presently allocated=3998.15 MB)
unbinding of independent ones took 0.0632331 sec
particles have returned to their original processor (0.203297 sec, presently allocated 3998.15 MB)

number of subhalo candidates that can be done independently=1235.
(Largest size is 22943, finding them took 0.832883 sec)
particles are marked (took 11.2109)
independent subhalos are assembled on individual CPUs for unbinding (0.150246 sec, (presently allocated=3998.15 MB)
unbinding of independent ones took 0.493042 sec
particles have returned to their original processor (0.209624 sec, presently allocated 3998.15 MB)

number of subhalo candidates that can be done independently=65.
(Largest size is 133613, finding them took 0.725921 sec)
particles are marked (took 11.2686)
independent subhalos are assembled on individual CPUs for unbinding (0.156158 sec, (presently allocated=3998.15 MB)
unbinding of independent ones took 3.70199 sec
particles have returned to their original processor (0.223027 sec, presently allocated 3998.15 MB)

number of subhalo candidates that can be done independently=6.
(Largest size is 45193, finding them took 0.426336 sec)
particles are marked (took 7.06966)
independent subhalos are assembled on individual CPUs for unbinding (0.143479 sec, (presently allocated=3998.15 MB)
unbinding of independent ones took 1.12573 sec
particles have returned to their original processor (0.206323 sec, presently allocated 3998.15 MB)

number of subhalo candidates that can be done independently=2.
(Largest size is 131876, finding them took 0.453951 sec)
particles are marked (took 8.37318)
independent subhalos are assembled on individual CPUs for unbinding (0.151477 sec, (presently allocated=3998.15 MB)
unbinding of independent ones took 2.11476 sec
particles have returned to their original processor (0.219179 sec, presently allocated 3998.15 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 3225705, finding them took 0.426692 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=3225705 ... maximum alloacted 3998.2 MB
took 57.2418 sec

the collective unbinding of remaining halos took 63.141 sec

found 1228 bound substructures in FoF group of length 3225705
determination of parent subhalo took 0.026206 sec (presently allocated 3998.2 MB)
determining substructure properties took 67.6342 sec (presently allocated 3998.2 MB)

collectively doing halo 6, 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)
Before=144529
After=165249
NTopleaves= 144593  NTopnodes=165249 (space for 244687)
gravity work-load balance=1.00057   memory-balance=1.00057   SPH work-load balance=0
iter=0 exchange of 0002926526 particles (ret=0)
domain decomposition done. (took 0.831817 sec)
Freed 3.63638 MByte in top-level domain structure
coldomain_Decomposition() took 1.24121 sec  (presently allocated=3997.01 MB)
force_treebuild() took 1.63533 sec (presently allocated=3997.01 MB)
Start find_linkngb (11468 particles on task=0)
find linkngb iteration 1: need to repeat for 0002929456 particles. (took 0.196894 sec)
find linkngb iteration 2: need to repeat for 0002876791 particles. (took 0.130266 sec)
find linkngb iteration 3: need to repeat for 0002760158 particles. (took 0.0922749 sec)
find linkngb iteration 4: need to repeat for 0002475330 particles. (took 0.105438 sec)
find linkngb iteration 5: need to repeat for 0002077644 particles. (took 0.0905509 sec)
find linkngb iteration 6: need to repeat for 0001513133 particles. (took 0.0762131 sec)
find linkngb iteration 7: need to repeat for 0000954587 particles. (took 0.0572429 sec)
find linkngb iteration 8: need to repeat for 0000544594 particles. (took 0.040724 sec)
find linkngb iteration 9: need to repeat for 0000291417 particles. (took 0.0256681 sec)
find linkngb iteration 10: need to repeat for 0000151368 particles. (took 0.0172441 sec)
find linkngb iteration 11: need to repeat for 0000076602 particles. (took 0.0122979 sec)
find linkngb iteration 12: need to repeat for 0000016776 particles. (took 0.00921583 sec)
find linkngb iteration 13: need to repeat for 0000000593 particles. (took 0.00511909 sec)
find linkngb iteration 14: need to repeat for 0000000210 particles. (took 0.000490904 sec)
find linkngb iteration 15: need to repeat for 0000000077 particles. (took 0.000411987 sec)
find linkngb iteration 16: need to repeat for 0000000033 particles. (took 0.000328064 sec)
find linkngb iteration 17: need to repeat for 0000000008 particles. (took 0.000313997 sec)
find linkngb iteration 18: need to repeat for 0000000003 particles. (took 0.000334024 sec)
find_linkngb() took 0.861791 sec
Start finding nearest two (11468 particles on task=0)
find_nearesttwo() took 0.171604 sec (presently allocated=3997.88 MB)
parallel sort of densities done. took 0.037766 sec
building distributed linked list. (presently allocated 3997.77 MB)
identification of primary candidates took 76.8652 sec
adding background as candidate took 0.157293 sec
establishing of rank order took 23.9067 sec  (p=2937465, grouplen=2937465) presently allocated 3997.77 MB

total number of subhalo candidates=11882

number of subhalo candidates that can be done independently=10713.
(Largest size is 8701, finding them took 0.00348902 sec)
particles are marked (took 14.8439)
independent subhalos are assembled on individual CPUs for unbinding (0.145269 sec, (presently allocated=3997.77 MB)
unbinding of independent ones took 0.170035 sec
particles have returned to their original processor (0.204154 sec, presently allocated 3997.77 MB)

number of subhalo candidates that can be done independently=1085.
(Largest size is 40107, finding them took 0.851764 sec)
particles are marked (took 9.97264)
independent subhalos are assembled on individual CPUs for unbinding (0.146744 sec, (presently allocated=3997.77 MB)
unbinding of independent ones took 0.91944 sec
particles have returned to their original processor (0.20884 sec, presently allocated 3997.77 MB)

number of subhalo candidates that can be done independently=76.
(Largest size is 165078, finding them took 0.927438 sec)
particles are marked (took 9.42289)
independent subhalos are assembled on individual CPUs for unbinding (0.151529 sec, (presently allocated=3997.77 MB)
unbinding of independent ones took 1.64568 sec
particles have returned to their original processor (0.221166 sec, presently allocated 3997.77 MB)

number of subhalo candidates that can be done independently=5.
(Largest size is 165078, finding them took 0.44242 sec)
particles are marked (took 8.07731)
independent subhalos are assembled on individual CPUs for unbinding (0.154809 sec, (presently allocated=3997.77 MB)
unbinding of independent ones took 4.25654 sec
particles have returned to their original processor (0.236876 sec, presently allocated 3997.77 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 165078, finding them took 0.444198 sec)
particles are marked (took 6.17824)
independent subhalos are assembled on individual CPUs for unbinding (0.141392 sec, (presently allocated=3997.77 MB)
unbinding of independent ones took 0.588164 sec
particles have returned to their original processor (0.205528 sec, presently allocated 3997.77 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 165078, finding them took 0.403969 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=165078 ... maximum alloacted 3997.81 MB
took 3.44435 sec
collective unbinding of nr=1 (2) of length=2937465 ... maximum alloacted 3997.81 MB
took 49.7777 sec

the collective unbinding of remaining halos took 58.5034 sec

found 1096 bound substructures in FoF group of length 2937465
determination of parent subhalo took 0.0266669 sec (presently allocated 3997.81 MB)
determining substructure properties took 62.136 sec (presently allocated 3997.81 MB)

collectively doing halo 7, 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)
Before=145481
After=165609
NTopleaves= 144908  NTopnodes=165609 (space for 244687)
gravity work-load balance=1.00055   memory-balance=1.00055   SPH work-load balance=0
iter=0 exchange of 0002675088 particles (ret=0)
domain decomposition done. (took 0.840046 sec)
Freed 3.6199 MByte in top-level domain structure
coldomain_Decomposition() took 1.24295 sec  (presently allocated=3997.09 MB)
force_treebuild() took 1.61504 sec (presently allocated=3997.09 MB)
Start find_linkngb (10459 particles on task=0)
find linkngb iteration 1: need to repeat for 0002680023 particles. (took 0.186298 sec)
find linkngb iteration 2: need to repeat for 0002638133 particles. (took 0.119697 sec)
find linkngb iteration 3: need to repeat for 0002531710 particles. (took 0.0842221 sec)
find linkngb iteration 4: need to repeat for 0002274010 particles. (took 0.0957279 sec)
find linkngb iteration 5: need to repeat for 0001910468 particles. (took 0.0846539 sec)
find linkngb iteration 6: need to repeat for 0001393654 particles. (took 0.0704041 sec)
find linkngb iteration 7: need to repeat for 0000880273 particles. (took 0.0533741 sec)
find linkngb iteration 8: need to repeat for 0000503152 particles. (took 0.0367579 sec)
find linkngb iteration 9: need to repeat for 0000269843 particles. (took 0.0274451 sec)
find linkngb iteration 10: need to repeat for 0000140174 particles. (took 0.016279 sec)
find linkngb iteration 11: need to repeat for 0000071425 particles. (took 0.011709 sec)
find linkngb iteration 12: need to repeat for 0000015713 particles. (took 0.00916696 sec)
find linkngb iteration 13: need to repeat for 0000000600 particles. (took 0.00526285 sec)
find linkngb iteration 14: need to repeat for 0000000216 particles. (took 0.000535965 sec)
find linkngb iteration 15: need to repeat for 0000000077 particles. (took 0.000383139 sec)
find linkngb iteration 16: need to repeat for 0000000025 particles. (took 0.000334978 sec)
find linkngb iteration 17: need to repeat for 0000000011 particles. (took 0.00030303 sec)
find linkngb iteration 18: need to repeat for 0000000003 particles. (took 0.00029397 sec)
find_linkngb() took 0.803635 sec
Start finding nearest two (10459 particles on task=0)
find_nearesttwo() took 0.204929 sec (presently allocated=3997.89 MB)
parallel sort of densities done. took 0.108382 sec
building distributed linked list. (presently allocated 3997.78 MB)
identification of primary candidates took 67.0906 sec
adding background as candidate took 0.157857 sec
establishing of rank order took 22.6575 sec  (p=2684482, grouplen=2684482) presently allocated 3997.78 MB

total number of subhalo candidates=11606

number of subhalo candidates that can be done independently=10471.
(Largest size is 3056, finding them took 0.00331593 sec)
particles are marked (took 14.2191)
independent subhalos are assembled on individual CPUs for unbinding (0.145483 sec, (presently allocated=3997.78 MB)
unbinding of independent ones took 0.0438879 sec
particles have returned to their original processor (0.205329 sec, presently allocated 3997.78 MB)

number of subhalo candidates that can be done independently=1076.
(Largest size is 17191, finding them took 0.8314 sec)
particles are marked (took 9.75459)
independent subhalos are assembled on individual CPUs for unbinding (0.147571 sec, (presently allocated=3997.78 MB)
unbinding of independent ones took 0.455838 sec
particles have returned to their original processor (0.209162 sec, presently allocated 3997.78 MB)

number of subhalo candidates that can be done independently=55.
(Largest size is 50773, finding them took 1.02673 sec)
particles are marked (took 8.89975)
independent subhalos are assembled on individual CPUs for unbinding (0.153093 sec, (presently allocated=3997.78 MB)
unbinding of independent ones took 1.15933 sec
particles have returned to their original processor (0.225015 sec, presently allocated 3997.78 MB)

number of subhalo candidates that can be done independently=3.
(Largest size is 2434, finding them took 0.440854 sec)
particles are marked (took 5.54382)
independent subhalos are assembled on individual CPUs for unbinding (0.141964 sec, (presently allocated=3997.78 MB)
unbinding of independent ones took 0.019016 sec
particles have returned to their original processor (0.19522 sec, presently allocated 3997.78 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 2684482, finding them took 0.410055 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=2684482 ... maximum alloacted 3997.82 MB
took 45.4686 sec

the collective unbinding of remaining halos took 50.6738 sec

found 956 bound substructures in FoF group of length 2684482
determination of parent subhalo took 0.025847 sec (presently allocated 3997.82 MB)
determining substructure properties took 53.4739 sec (presently allocated 3997.82 MB)
processing of collective halos took 4875.39 sec
sort of local particles()() took 0.569338 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 238.985 sec

Task 255: testing particles ...
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unsorting of local particles()() took 0.459221 sec
Task 0: testing particles ...
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Task 7: testing particles ...
subfind_exchange() (for return to original CPU)  took 3.00101 sec
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)
Before=185249
After=203897
NTopleaves= 178410  NTopnodes=203897 (space for 244687)
gravity work-load balance=1.00035   memory-balance=1.00035   SPH work-load balance=0
iter=0 exchange of 0273130883 particles (ret=0)
domain decomposition done. (took 3.62807 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.86722 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000152555 particles. (took 0.0213051 sec)
SO iteration 2: need to repeat for 0000152555 particles. (took 0.0201099 sec)
SO iteration 3: need to repeat for 0000152555 particles. (took 0.0204151 sec)
SO iteration 4: need to repeat for 0000152555 particles. (took 0.02018 sec)
SO iteration 5: need to repeat for 0000152555 particles. (took 0.0203891 sec)
SO iteration 6: need to repeat for 0000152555 particles. (took 0.0204749 sec)
SO iteration 7: need to repeat for 0000152555 particles. (took 0.0205231 sec)
SO iteration 8: need to repeat for 0000152555 particles. (took 0.0204821 sec)
SO iteration 9: need to repeat for 0000152555 particles. (took 0.020376 sec)
SO iteration 10: need to repeat for 0000152555 particles. (took 0.0202022 sec)
SO iteration 11: need to repeat for 0000152555 particles. (took 0.0203459 sec)
SO iteration 12: need to repeat for 0000152555 particles. (took 0.0204401 sec)
SO iteration 13: need to repeat for 0000152555 particles. (took 0.0210421 sec)
SO iteration 14: need to repeat for 0000152555 particles. (took 0.020395 sec)
SO iteration 15: need to repeat for 0000152010 particles. (took 0.020344 sec)
SO iteration 16: need to repeat for 0000000394 particles. (took 0.0199182 sec)
SO iteration 17: need to repeat for 0000000035 particles. (took 0.000933886 sec)
SO iteration 1: need to repeat for 0000152555 particles. (took 0.021095 sec)
SO iteration 2: need to repeat for 0000152555 particles. (took 0.0199928 sec)
SO iteration 3: need to repeat for 0000152555 particles. (took 0.01928 sec)
SO iteration 4: need to repeat for 0000152555 particles. (took 0.019316 sec)
SO iteration 5: need to repeat for 0000152555 particles. (took 0.019664 sec)
SO iteration 6: need to repeat for 0000152555 particles. (took 0.0192578 sec)
SO iteration 7: need to repeat for 0000152555 particles. (took 0.0193579 sec)
SO iteration 8: need to repeat for 0000152555 particles. (took 0.0192809 sec)
SO iteration 9: need to repeat for 0000152555 particles. (took 0.0191798 sec)
SO iteration 10: need to repeat for 0000152555 particles. (took 0.0191729 sec)
SO iteration 11: need to repeat for 0000152555 particles. (took 0.0193601 sec)
SO iteration 12: need to repeat for 0000152555 particles. (took 0.0191941 sec)
SO iteration 13: need to repeat for 0000152555 particles. (took 0.0188751 sec)
SO iteration 14: need to repeat for 0000152555 particles. (took 0.0192761 sec)
SO iteration 15: need to repeat for 0000152444 particles. (took 0.019212 sec)
SO iteration 16: need to repeat for 0000016171 particles. (took 0.0192709 sec)
SO iteration 17: need to repeat for 0000000277 particles. (took 0.00515604 sec)
SO iteration 18: need to repeat for 0000000040 particles. (took 0.000797987 sec)
SO iteration 1: need to repeat for 0000152555 particles. (took 0.0206511 sec)
SO iteration 2: need to repeat for 0000152555 particles. (took 0.0180578 sec)
SO iteration 3: need to repeat for 0000152555 particles. (took 0.0168228 sec)
SO iteration 4: need to repeat for 0000152555 particles. (took 0.017072 sec)
SO iteration 5: need to repeat for 0000152555 particles. (took 0.017113 sec)
SO iteration 6: need to repeat for 0000152555 particles. (took 0.0172241 sec)
SO iteration 7: need to repeat for 0000152555 particles. (took 0.0170929 sec)
SO iteration 8: need to repeat for 0000152555 particles. (took 0.0171309 sec)
SO iteration 9: need to repeat for 0000152555 particles. (took 0.0171351 sec)
SO iteration 10: need to repeat for 0000152555 particles. (took 0.017199 sec)
SO iteration 11: need to repeat for 0000152555 particles. (took 0.0173101 sec)
SO iteration 12: need to repeat for 0000152555 particles. (took 0.0173931 sec)
SO iteration 13: need to repeat for 0000152555 particles. (took 0.0175002 sec)
SO iteration 14: need to repeat for 0000152555 particles. (took 0.017266 sec)
SO iteration 15: need to repeat for 0000152541 particles. (took 0.0174072 sec)
SO iteration 16: need to repeat for 0000152520 particles. (took 0.017678 sec)
SO iteration 17: need to repeat for 0000023187 particles. (took 0.0178392 sec)
SO iteration 18: need to repeat for 0000000480 particles. (took 0.0068481 sec)
SO iteration 19: need to repeat for 0000000076 particles. (took 0.000977993 sec)
SO iteration 20: need to repeat for 0000000003 particles. (took 0.000853062 sec)
SO iteration 1: need to repeat for 0000152555 particles. (took 0.021498 sec)
SO iteration 2: need to repeat for 0000152555 particles. (took 0.0205028 sec)
SO iteration 3: need to repeat for 0000152555 particles. (took 0.0194519 sec)
SO iteration 4: need to repeat for 0000152555 particles. (took 0.020004 sec)
SO iteration 5: need to repeat for 0000152555 particles. (took 0.0199199 sec)
SO iteration 6: need to repeat for 0000152555 particles. (took 0.0202792 sec)
SO iteration 7: need to repeat for 0000152555 particles. (took 0.0196619 sec)
SO iteration 8: need to repeat for 0000152555 particles. (took 0.0212278 sec)
SO iteration 9: need to repeat for 0000152555 particles. (took 0.0214782 sec)
SO iteration 10: need to repeat for 0000152555 particles. (took 0.020622 sec)
SO iteration 11: need to repeat for 0000152555 particles. (took 0.019927 sec)
SO iteration 12: need to repeat for 0000152555 particles. (took 0.0197849 sec)
SO iteration 13: need to repeat for 0000152555 particles. (took 0.021064 sec)
SO iteration 14: need to repeat for 0000152555 particles. (took 0.021904 sec)
SO iteration 15: need to repeat for 0000152293 particles. (took 0.0199339 sec)
SO iteration 16: need to repeat for 0000001822 particles. (took 0.020004 sec)
SO iteration 17: need to repeat for 0000000097 particles. (took 0.00163889 sec)
SO iteration 18: need to repeat for 0000000006 particles. (took 0.000846863 sec)
SO iteration 1: need to repeat for 0000152555 particles. (took 0.021071 sec)
SO iteration 2: need to repeat for 0000152555 particles. (took 0.0181231 sec)
SO iteration 3: need to repeat for 0000152555 particles. (took 0.0188081 sec)
SO iteration 4: need to repeat for 0000152555 particles. (took 0.0186751 sec)
SO iteration 5: need to repeat for 0000152555 particles. (took 0.0185571 sec)
SO iteration 6: need to repeat for 0000152555 particles. (took 0.020169 sec)
SO iteration 7: need to repeat for 0000152555 particles. (took 0.0202792 sec)
SO iteration 8: need to repeat for 0000152555 particles. (took 0.0184722 sec)
SO iteration 9: need to repeat for 0000152555 particles. (took 0.0185761 sec)
SO iteration 10: need to repeat for 0000152555 particles. (took 0.018589 sec)
SO iteration 11: need to repeat for 0000152555 particles. (took 0.0186849 sec)
SO iteration 12: need to repeat for 0000152555 particles. (took 0.021512 sec)
SO iteration 13: need to repeat for 0000152555 particles. (took 0.019619 sec)
SO iteration 14: need to repeat for 0000152555 particles. (took 0.0186791 sec)
SO iteration 15: need to repeat for 0000152450 particles. (took 0.0185421 sec)
SO iteration 16: need to repeat for 0000020226 particles. (took 0.0186081 sec)
SO iteration 17: need to repeat for 0000000302 particles. (took 0.00635314 sec)
SO iteration 18: need to repeat for 0000000043 particles. (took 0.000844955 sec)
SO iteration 1: need to repeat for 0000152555 particles. (took 0.0205231 sec)
SO iteration 2: need to repeat for 0000152555 particles. (took 0.0180049 sec)
SO iteration 3: need to repeat for 0000152555 particles. (took 0.0168982 sec)
SO iteration 4: need to repeat for 0000152555 particles. (took 0.018703 sec)
SO iteration 5: need to repeat for 0000152555 particles. (took 0.0196371 sec)
SO iteration 6: need to repeat for 0000152555 particles. (took 0.0173581 sec)
SO iteration 7: need to repeat for 0000152555 particles. (took 0.0175622 sec)
SO iteration 8: need to repeat for 0000152555 particles. (took 0.0175622 sec)
SO iteration 9: need to repeat for 0000152555 particles. (took 0.0175111 sec)
SO iteration 10: need to repeat for 0000152555 particles. (took 0.0181119 sec)
SO iteration 11: need to repeat for 0000152555 particles. (took 0.0198939 sec)
SO iteration 12: need to repeat for 0000152555 particles. (took 0.0175869 sec)
SO iteration 13: need to repeat for 0000152555 particles. (took 0.0176811 sec)
SO iteration 14: need to repeat for 0000152555 particles. (took 0.0174811 sec)
SO iteration 15: need to repeat for 0000152534 particles. (took 0.0180318 sec)
SO iteration 16: need to repeat for 0000152440 particles. (took 0.017575 sec)
SO iteration 17: need to repeat for 0000002942 particles. (took 0.017642 sec)
SO iteration 18: need to repeat for 0000000202 particles. (took 0.00166607 sec)
SO iteration 19: need to repeat for 0000000024 particles. (took 0.000693798 sec)
SO iteration 1: need to repeat for 0000152555 particles. (took 0.020575 sec)
SO iteration 2: need to repeat for 0000152555 particles. (took 0.0180581 sec)
SO iteration 3: need to repeat for 0000152555 particles. (took 0.016799 sec)
SO iteration 4: need to repeat for 0000152555 particles. (took 0.0146849 sec)
SO iteration 5: need to repeat for 0000152555 particles. (took 0.0156398 sec)
SO iteration 6: need to repeat for 0000152555 particles. (took 0.0160501 sec)
SO iteration 7: need to repeat for 0000152555 particles. (took 0.0160179 sec)
SO iteration 8: need to repeat for 0000152555 particles. (took 0.0159841 sec)
SO iteration 9: need to repeat for 0000152555 particles. (took 0.0159612 sec)
SO iteration 10: need to repeat for 0000152555 particles. (took 0.01582 sec)
SO iteration 11: need to repeat for 0000152555 particles. (took 0.015856 sec)
SO iteration 12: need to repeat for 0000152555 particles. (took 0.0158231 sec)
SO iteration 13: need to repeat for 0000152555 particles. (took 0.0159309 sec)
SO iteration 14: need to repeat for 0000152555 particles. (took 0.0161669 sec)
SO iteration 15: need to repeat for 0000152552 particles. (took 0.0175641 sec)
SO iteration 16: need to repeat for 0000152546 particles. (took 0.0158801 sec)
SO iteration 17: need to repeat for 0000152517 particles. (took 0.0158181 sec)
SO iteration 18: need to repeat for 0000008568 particles. (took 0.0157731 sec)
SO iteration 19: need to repeat for 0000000274 particles. (took 0.00273085 sec)
SO iteration 20: need to repeat for 0000000029 particles. (took 0.000681877 sec)
SO iteration 21: need to repeat for 0000000001 particles. (took 0.000597954 sec)
determining spherical overdensity masses took 2.21189 sec
finding spherical overdensity particles took 0.495535 sec
determining contamination of halos took 0.206157 sec
Global sort of Groups took 0.0928621 sec
Global sort of SubGroups took 0.280705 sec
Global sort of IDs took 0.53017 sec
Writing block 0 (GLEN), n=735, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2940d
Writing block 1 (GOFF), n=735, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2940d
Writing block 2 (MTOT), n=735, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2940d
Writing block 3 (GPOS), n=735, ptype=0, dtype=1, ndim=3, bpb=4 bytes=8820d
Writing block 4 (MMEA), n=735, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2940d
Writing block 5 (RMEA), n=735, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2940d
Writing block 6 (MCRI), n=735, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2940d
Writing block 7 (RCRI), n=735, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2940d
Writing block 8 (MTOP), n=735, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2940d
Writing block 9 (RTOP), n=735, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2940d
Writing block 17 (NCON), n=735, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2940d
Writing block 18 (MCON), n=735, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2940d
Writing block 22 (NSUB), n=735, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2940d
Writing block 23 (FSUB), n=735, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2940d
Writing block 24 (SLEN), n=6731, ptype=1, dtype=0, ndim=1, bpb=4 bytes=26924d
Writing block 25 (SOFF), n=6731, ptype=1, dtype=0, ndim=1, bpb=4 bytes=26924d
Writing block 27 (MSUB), n=6731, ptype=1, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 28 (SPOS), n=6731, ptype=1, dtype=1, ndim=3, bpb=4 bytes=80772d
Writing block 29 (SVEL), n=6731, ptype=1, dtype=1, ndim=3, bpb=4 bytes=80772d
Writing block 30 (SCM ), n=6731, ptype=1, dtype=1, ndim=3, bpb=4 bytes=80772d
Writing block 33 (VMAX), n=6731, ptype=1, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 34 (RMAX), n=6731, ptype=1, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 35 (RHMS), n=6731, ptype=1, dtype=1, ndim=6, bpb=4 bytes=161544d
Writing block 36 (MTRH), n=6731, ptype=1, dtype=1, ndim=6, bpb=4 bytes=161544d
Writing block 37 (MBID), n=6731, ptype=1, dtype=2, ndim=1, bpb=8 bytes=53848d
Writing block 38 (GRNR), n=6731, ptype=1, dtype=0, ndim=1, bpb=4 bytes=26924d
Writing block 39 (SUBN), n=6731, ptype=1, dtype=0, ndim=1, bpb=4 bytes=26924d
Writing block 40 (SMST), n=6731, ptype=1, dtype=1, ndim=6, bpb=4 bytes=161544d
Writing block 53 (PID ), n=687856, ptype=2, dtype=2, ndim=1, bpb=8 bytes=5502848d
Writing block 54 (SLEN), n=6731, ptype=1, dtype=0, ndim=6, bpb=4 bytes=161544d
Writing block 55 (STEN), n=6731, ptype=1, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 56 (SKEN), n=6731, ptype=1, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 57 (SUEN), n=6731, ptype=1, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 58 (SUIT), n=6731, ptype=1, dtype=1, ndim=9, bpb=4 bytes=242316d
Writing block 59 (BHMA), n=6731, ptype=1, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 60 (BHMD), n=6731, ptype=1, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 61 (SVD ), n=6731, ptype=1, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 62 (SVDH), n=6731, ptype=1, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 63 (HMPR), n=6731, ptype=1, dtype=1, ndim=6, bpb=4 bytes=161544d
Writing block 64 (SSFR), n=6731, ptype=1, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 65 (SSA ), n=6731, ptype=1, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 66 (SSBZ), n=6731, ptype=1, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 67 (SSIM), n=6731, ptype=1, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 68 (SSPI), n=6731, ptype=4, dtype=1, ndim=3, bpb=4 bytes=80772d
Writing block 69 (GSPI), n=6731, ptype=1, dtype=1, ndim=3, bpb=4 bytes=80772d
Writing block 70 (FSPI), n=6731, ptype=5, dtype=1, ndim=3, bpb=4 bytes=80772d
Writing block 71 (SFM ), n=6731, ptype=5, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 72 (SFMT), n=6731, ptype=5, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 73 (SFME), n=6731, ptype=5, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 74 (SFAE), n=6731, ptype=5, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 75 (SFKE), n=6731, ptype=5, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 76 (SFTE), n=6731, ptype=5, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 77 (SMWP), n=6731, ptype=5, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 78 (SMM ), n=6731, ptype=5, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 79 (SMMS), n=6731, ptype=5, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 80 (SFZ ), n=6731, ptype=5, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 81 (SFZS), n=6731, ptype=5, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 82 (SSIA), n=6731, ptype=5, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 83 (SIAS), n=6731, ptype=5, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 84 (SMET), n=6731, ptype=5, dtype=1, ndim=9, bpb=4 bytes=242316d
Writing block 85 (SMTS), n=6731, ptype=5, dtype=1, ndim=9, bpb=4 bytes=242316d
Writing block 86 (MF1 ), n=6731, ptype=5, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 87 (MeF1), n=6731, ptype=5, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 88 (MF  ), n=6731, ptype=5, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 89 (MeF2), n=6731, ptype=5, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 90 (MFA ), n=6731, ptype=5, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 91 (MeFA), n=6731, ptype=5, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 92 (NSPI), n=6731, ptype=6, dtype=1, ndim=3, bpb=4 bytes=80772d
Writing block 93 (NFM ), n=6731, ptype=6, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 94 (NFMT), n=6731, ptype=6, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 95 (NFME), n=6731, ptype=6, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 96 (NFAE), n=6731, ptype=6, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 97 (NFKE), n=6731, ptype=6, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 98 (NFTE), n=6731, ptype=6, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 99 (SMWP), n=6731, ptype=6, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 100 (SMM ), n=6731, ptype=6, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 101 (SMMS), n=6731, ptype=6, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 102 (SSIA), n=6731, ptype=6, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 103 (SIAS), n=6731, ptype=6, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 104 (SMET), n=6731, ptype=6, dtype=1, ndim=9, bpb=4 bytes=242316d
Writing block 105 (SMTS), n=6731, ptype=6, dtype=1, ndim=9, bpb=4 bytes=242316d
Writing block 106 (MF1 ), n=6731, ptype=6, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 107 (MeF1), n=6731, ptype=6, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 108 (MF2 ), n=6731, ptype=6, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 109 (MeF2), n=6731, ptype=6, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 110 (MFA ), n=6731, ptype=6, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 111 (MeFA), n=6731, ptype=6, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 112 (SM  ), n=6731, ptype=4, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 113 (SFKE), n=6731, ptype=4, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 114 (SFAE), n=6731, ptype=4, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 115 (SMWP), n=6731, ptype=4, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 116 (SMM ), n=6731, ptype=4, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 117 (SMMS), n=6731, ptype=4, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 118 (SSIA), n=6731, ptype=4, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 119 (SIAS), n=6731, ptype=4, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 120 (SMET), n=6731, ptype=4, dtype=1, ndim=9, bpb=4 bytes=242316d
Writing block 121 (SMTS), n=6731, ptype=4, dtype=1, ndim=9, bpb=4 bytes=242316d
Writing block 122 (MF1 ), n=6731, ptype=4, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 123 (MeF1), n=6731, ptype=4, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 124 (MF2 ), n=6731, ptype=4, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 125 (MeF2), n=6731, ptype=4, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 126 (MFA ), n=6731, ptype=4, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 127 (MeFA), n=6731, ptype=4, dtype=1, ndim=1, bpb=4 bytes=26924d
Writing block 128 (MMe5), n=735, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2940d
Writing block 129 (RMe5), n=735, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2940d
Writing block 130 (MCr5), n=735, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2940d
Writing block 131 (RCr5), n=735, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2940d
Writing block 132 (MMe2), n=735, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2940d
Writing block 133 (RMe2), n=735, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2940d
Writing block 134 (MCr2), n=735, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2940d
Writing block 135 (RCr2), n=735, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2940d
Writing block 136 (MAPT), n=6731, ptype=7, dtype=1, ndim=60, bpb=4 bytes=1615440d
Writing block 137 (SAPT), n=6731, ptype=8, dtype=1, ndim=10, bpb=4 bytes=269240d
Writing block 138 (VAPT), n=6731, ptype=9, dtype=1, ndim=10, bpb=4 bytes=269240d
Writing block 139 (BEGY), n=687856, ptype=2, dtype=1, ndim=1, bpb=4 bytes=2751424d
Subgroup catalogues saved. took = 7.34917 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 6.321909e-01
 eagle_ph_key_ort: type= 2 timed by volker 4.181910e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.346299e-02
 eagle_ph_key_ort: type= 4 timed by volker 4.346299e-02
 eagle_ph_key_ort: type= 5 timed by volker 4.346299e-02
 eagle_ph_key_ort: timing parallel sort = 7.257512e-01
 eagle_fetch_elements: we are using 1623080332 bytes of memory, FreeBytes= 2028850416

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 3515.14 Mbyte (on task=0), Smallest = 1316.45 Mbyte, Average = 1356.91 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 2977 0   sort_index_data     24.5140    3515.1375  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1963418 number of bytes = 628293760

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 5062.84 Mbyte (on task=0), Smallest = 2864.26 Mbyte, Average = 2904.68 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      9.8913    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 2977 0   sort_index_data     24.5140    3515.1375  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      7.4898    3522.6273  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      7.4898    3530.1172  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      7.4898    3537.6070  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    599.1876    4136.7946  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    599.1876    4735.9822  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    326.8527    5062.8350  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.120778e+00
 eagle_fetch_elements: we are using 1623080332 bytes of memory, FreeBytes= 2028850416
 eagle_fetch_elements: max_bytes= 504, max_elements= 1591255 number of bytes = 801992520
 eagle_ph_key_ort: timing parallel SphP exchange = 4.106998e-03
 eagle_fetch_elements: we are using 1623080332 bytes of memory, FreeBytes= 2028850416
 eagle_fetch_elements: max_bytes= 384, max_elements= 2080872 number of bytes = 799054848
 eagle_ph_key_ort: timing parallel MetP exchange = 4.210472e-04
 eagle_fetch_elements: we are using 1623080332 bytes of memory, FreeBytes= 2028850416
 eagle_fetch_elements: max_bytes= 256, max_elements= 3097481 number of bytes = 792955136
 eagle_ph_key_ort: timing parallel BHP exchange = 4.119873e-04
Sorting particle-data by peano-hilbert key took = 3.229 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1623080332 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1963418 number of bytes= 628293760
 eagle_ph_restore: timing parallel P exchange = 1.995492e+00
 eagle_send_elements: we are using 1623080332 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1591255 number of bytes= 801992520
 eagle_ph_restore: timing parallel SphP exchange = 2.537012e-03
 eagle_send_elements: we are using 1623080332 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2080872 number of bytes= 799054848
 eagle_ph_restore: timing parallel MetP exchange = 7.100105e-04
 eagle_send_elements: we are using 1623080332 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 3097481 number of bytes= 792955136
 eagle_ph_restore: timing parallel BHP exchange = 7.269382e-04
Restoring original order after ph key sorting took = 2.01616 sec

finished writing particle file...

Finished with SUBFIND.  (total time=5274.28 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=178833
After=199401
NTopleaves= 174476  NTopnodes=199401 (space for 244687)
gravity work-load balance=1.00057   memory-balance=1.00057   SPH work-load balance=0
iter=0 exchange of 0272953065 particles (ret=0)
domain decomposition done. (took 3.64635 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.07303 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
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 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


 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


 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 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 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


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


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
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
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 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


 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 = 5345.64 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 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 =   63013.73 Mb (on task=253), Smallest =   62734.53 Mb (on task=0), Average =   62810.13 Mb
Total Mem:	 Largest =   64532.40 Mb (on task=88), Smallest =   64531.98 Mb (on task=121), Average =   64532.08 Mb
Committed_AS:	 Largest =    1797.53 Mb (on task=0), Smallest =    1518.33 Mb (on task=253), Average =    1721.96 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16358.95 Mb (on task=165), Smallest =   16262.80 Mb (on task=33), Average =   16337.70 Mb
AllocMem:	 Largest =    1797.53 Mb (on task=0), Smallest =    1518.33 Mb (on task=253), Average =    1721.96 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin052

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.N11':
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                         5450
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=3.73922 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 10.0452 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.
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities 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...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities 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 3.44932 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 8.6746 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 6.65335 sec)
have done 0000440415 cross links (processed 0053543034, took 6.36667 sec)
have done 0000317423 cross links (processed 0045241418, took 6.02769 sec)
have done 0000220316 cross links (processed 0033300223, took 4.52736 sec)
have done 0000149355 cross links (processed 0024323480, took 4.5598 sec)
have done 0000093573 cross links (processed 0016731323, took 5.22261 sec)
have done 0000056074 cross links (processed 0009677762, took 5.53288 sec)
have done 0000032580 cross links (processed 0004144627, took 3.28959 sec)
have done 0000017876 cross links (processed 0001352978, took 0.631116 sec)
have done 0000009396 cross links (processed 0000535523, took 0.412342 sec)
have done 0000008048 cross links (processed 0001027375, took 0.733959 sec)
have done 0000008019 cross links (processed 0001435394, took 1.02274 sec)
have done 0000006688 cross links (processed 0000727699, took 2.41702 sec)
have done 0000005177 cross links (processed 0000500296, took 0.533865 sec)
have done 0000006152 cross links (processed 0000998769, took 0.734198 sec)
have done 0000006863 cross links (processed 0001397971, took 1.01961 sec)
have done 0000005226 cross links (processed 0000654716, took 2.39412 sec)
have done 0000002281 cross links (processed 0000168594, took 0.531791 sec)
have done 0000000746 cross links (processed 0000025596, took 0.401605 sec)
have done 0000000308 cross links (processed 0000004113, took 0.045182 sec)
have done 0000000121 cross links (processed 0000001734, took 0.045048 sec)
have done 0000000055 cross links (processed 0000000596, took 0.0445461 sec)
have done 0000000026 cross links (processed 0000000211, took 0.044522 sec)
have done 0000000008 cross links (processed 0000000113, took 0.0445621 sec)
have done 0000000003 cross links (processed 0000000025, took 0.0447259 sec)
have done 0000000000 cross links (processed 0000000007, took 0.0443361 sec)
Local groups found.

group finding took = 62.1304 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 = 0.11046 sec
compiling local group data and catalogue took = 0.587286 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 = 0.0751431 sec
start global sorting of group catalogues number 24
LargestGroup = 15649.433919; SmallestGroup = 0.025189
tagging gas particles with halo masses took = 0.0514069 sec
Group catalogues globally sorted. took = 0.732747 sec
starting saving of group catalogue number 24
data//groups_024_z000p155
Group catalogues number 24 saved. took = 2.26527 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 0.667398 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 0.279735 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.663972 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0192607179 particles. (took 19.9984 sec)
ngb iteration 2: need to repeat for 0149241978 particles. (took 9.74856 sec)
ngb iteration 3: need to repeat for 0130628979 particles. (took 6.91764 sec)
ngb iteration 4: need to repeat for 0118582916 particles. (took 5.67099 sec)
ngb iteration 5: need to repeat for 0105741019 particles. (took 5.0138 sec)
ngb iteration 6: need to repeat for 0087987869 particles. (took 4.36791 sec)
ngb iteration 7: need to repeat for 0066248714 particles. (took 3.69872 sec)
ngb iteration 8: need to repeat for 0045308079 particles. (took 2.90086 sec)
ngb iteration 9: need to repeat for 0028766930 particles. (took 2.14688 sec)
ngb iteration 10: need to repeat for 0017370251 particles. (took 1.46385 sec)
ngb iteration 11: need to repeat for 0010178470 particles. (took 0.952271 sec)
ngb iteration 12: need to repeat for 0005871602 particles. (took 0.594148 sec)
ngb iteration 13: need to repeat for 0003371375 particles. (took 0.37407 sec)
ngb iteration 14: need to repeat for 0001839347 particles. (took 0.246016 sec)
ngb iteration 15: need to repeat for 0000871999 particles. (took 0.163027 sec)
ngb iteration 16: need to repeat for 0000454030 particles. (took 0.100814 sec)
ngb iteration 17: need to repeat for 0000248849 particles. (took 0.07253 sec)
ngb iteration 18: need to repeat for 0000139692 particles. (took 0.0952878 sec)
ngb iteration 19: need to repeat for 0000077789 particles. (took 0.051579 sec)
ngb iteration 20: need to repeat for 0000042546 particles. (took 0.047405 sec)
ngb iteration 21: need to repeat for 0000022442 particles. (took 0.0771599 sec)
ngb iteration 22: need to repeat for 0000011383 particles. (took 0.045161 sec)
ngb iteration 23: need to repeat for 0000005522 particles. (took 0.041332 sec)
ngb iteration 24: need to repeat for 0000002580 particles. (took 0.0407178 sec)
ngb iteration 25: need to repeat for 0000001149 particles. (took 0.0404239 sec)
ngb iteration 26: need to repeat for 0000000440 particles. (took 0.040205 sec)
ngb iteration 27: need to repeat for 0000000159 particles. (took 0.039958 sec)
ngb iteration 28: need to repeat for 0000000066 particles. (took 0.0398901 sec)
ngb iteration 29: need to repeat for 0000000016 particles. (took 0.039912 sec)
ngb iteration 30: need to repeat for 0000000005 particles. (took 0.039917 sec)
ngb iteration 31: need to repeat for 0000000002 particles. (took 0.0398159 sec)
ngb iteration 32: need to repeat for 0000000001 particles. (took 0.0397909 sec)
final operations ... 
density and smoothing length for species 1 took 65.5157 sec
Tree construction.
tree build took 0.667512 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 0.282082 sec
Tree construction.
tree build took 0.665484 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 0.281126 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.129913 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 1.93093 sec
Tree construction for species 1 (271345230).
tree build for species 1 took 0.665809 sec
density() of species 1 took 1.19209e-06 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.141558 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 1.91662 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.12003 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 1.92327 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.844809 sec
saving densities took 1.7374 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 1.68365 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 0.988201 sec)
Freed 3.47708 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 3960.75 Mbyte (on task=0), Smallest = 1799.44 Mbyte, Average = 1838.88 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      9.9024    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
   0 2984 0            Father     14.3032    3960.7465  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 1.40796 sec  (presently allocated=3960.75 MB)
force_treebuild() took 1.95868 sec (presently allocated=3960.75 MB)
Start find_linkngb (77707 particles on task=0)
find linkngb iteration 1: need to repeat for 0017861291 particles. (took 1.52364 sec)
find linkngb iteration 2: need to repeat for 0015836910 particles. (took 1.03481 sec)
find linkngb iteration 3: need to repeat for 0015084071 particles. (took 0.703413 sec)
find linkngb iteration 4: need to repeat for 0013105173 particles. (took 0.78798 sec)
find linkngb iteration 5: need to repeat for 0010854128 particles. (took 0.680929 sec)
find linkngb iteration 6: need to repeat for 0007850139 particles. (took 0.573404 sec)
find linkngb iteration 7: need to repeat for 0004934439 particles. (took 0.412995 sec)
find linkngb iteration 8: need to repeat for 0002806533 particles. (took 0.256996 sec)
find linkngb iteration 9: need to repeat for 0001501975 particles. (took 0.150317 sec)
find linkngb iteration 10: need to repeat for 0000779519 particles. (took 0.0876541 sec)
find linkngb iteration 11: need to repeat for 0000396574 particles. (took 0.051729 sec)
find linkngb iteration 12: need to repeat for 0000083704 particles. (took 0.0315959 sec)
find linkngb iteration 13: need to repeat for 0000001848 particles. (took 0.0118079 sec)
find linkngb iteration 14: need to repeat for 0000000604 particles. (took 0.00108886 sec)
find linkngb iteration 15: need to repeat for 0000000238 particles. (took 0.000683069 sec)
find linkngb iteration 16: need to repeat for 0000000088 particles. (took 0.000577927 sec)
find linkngb iteration 17: need to repeat for 0000000021 particles. (took 0.000540018 sec)
find linkngb iteration 18: need to repeat for 0000000007 particles. (took 0.000522137 sec)
find linkngb iteration 19: need to repeat for 0000000001 particles. (took 0.000550985 sec)
find_linkngb() took 6.31329 sec
Start finding nearest two (77707 particles on task=0)
find_nearesttwo() took 1.09589 sec (presently allocated=3966.68 MB)
parallel sort of densities done. took 0.104419 sec
building distributed linked list. (presently allocated 3965.9 MB)
identification of primary candidates took 509.967 sec
adding background as candidate took 0.162914 sec
establishing of rank order took 144.296 sec  (p=19880648, grouplen=19880648) presently allocated 3965.9 MB

total number of subhalo candidates=96522

number of subhalo candidates that can be done independently=84719.
(Largest size is 4280, finding them took 0.0589859 sec)
particles are marked (took 112.828)
independent subhalos are assembled on individual CPUs for unbinding (0.212206 sec, (presently allocated=3965.9 MB)
unbinding of independent ones took 0.143283 sec
particles have returned to their original processor (0.256783 sec, presently allocated 3965.9 MB)

number of subhalo candidates that can be done independently=10868.
(Largest size is 21910, finding them took 1.07553 sec)
particles are marked (took 74.9151)
independent subhalos are assembled on individual CPUs for unbinding (0.176011 sec, (presently allocated=3965.9 MB)
unbinding of independent ones took 0.67788 sec
particles have returned to their original processor (0.220947 sec, presently allocated 3965.9 MB)

number of subhalo candidates that can be done independently=856.
(Largest size is 80797, finding them took 1.05464 sec)
particles are marked (took 61.5642)
independent subhalos are assembled on individual CPUs for unbinding (0.163444 sec, (presently allocated=3965.9 MB)
unbinding of independent ones took 2.80024 sec
particles have returned to their original processor (0.210087 sec, presently allocated 3965.9 MB)

number of subhalo candidates that can be done independently=70.
(Largest size is 358952, finding them took 1.03078 sec)
particles are marked (took 54.5225)
independent subhalos are assembled on individual CPUs for unbinding (0.178314 sec, (presently allocated=3965.9 MB)
unbinding of independent ones took 6.94225 sec
particles have returned to their original processor (0.224512 sec, presently allocated 3965.9 MB)

number of subhalo candidates that can be done independently=3.
(Largest size is 358952, finding them took 0.562688 sec)
particles are marked (took 44.662)
independent subhalos are assembled on individual CPUs for unbinding (0.134905 sec, (presently allocated=3965.9 MB)
unbinding of independent ones took 0.161519 sec
particles have returned to their original processor (0.183452 sec, presently allocated 3965.9 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 358952, finding them took 0.530926 sec)
particles are marked (took 44.7803)
independent subhalos are assembled on individual CPUs for unbinding (0.134665 sec, (presently allocated=3965.9 MB)
unbinding of independent ones took 0.463444 sec
particles have returned to their original processor (0.183575 sec, presently allocated 3965.9 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 358952, finding them took 0.499523 sec)
too few, I do the rest of 5 collectively

collective unbinding of nr=0 (5) of length=358952 ... maximum alloacted 3966.2 MB
took 14.6374 sec
collective unbinding of nr=1 (5) of length=244605 ... maximum alloacted 3966.2 MB
took 4.46183 sec
collective unbinding of nr=2 (5) of length=284627 ... maximum alloacted 3966.2 MB
took 5.64728 sec
collective unbinding of nr=3 (5) of length=6448381 ... maximum alloacted 3966.2 MB
took 99.8011 sec
collective unbinding of nr=4 (5) of length=19880648 ... maximum alloacted 3966.2 MB
took 347.223 sec

the collective unbinding of remaining halos took 514.821 sec

found 6201 bound substructures in FoF group of length 19880648
determination of parent subhalo took 0.083842 sec (presently allocated 3966.2 MB)
determining substructure properties took 443.613 sec (presently allocated 3966.2 MB)

collectively doing halo 2, 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)
Before=133137
After=166025
NTopleaves= 145272  NTopnodes=166025 (space for 244687)
gravity work-load balance=1.00058   memory-balance=1.00058   SPH work-load balance=0
iter=0 exchange of 0011552358 particles (ret=0)
domain decomposition done. (took 0.900987 sec)
Freed 3.60086 MByte in top-level domain structure
coldomain_Decomposition() took 1.31566 sec  (presently allocated=3960.14 MB)
force_treebuild() took 1.91397 sec (presently allocated=3960.14 MB)
Start find_linkngb (45328 particles on task=0)
find linkngb iteration 1: need to repeat for 0011069001 particles. (took 0.86712 sec)
find linkngb iteration 2: need to repeat for 0010152533 particles. (took 0.61239 sec)
find linkngb iteration 3: need to repeat for 0009680937 particles. (took 0.421108 sec)
find linkngb iteration 4: need to repeat for 0008473976 particles. (took 0.47191 sec)
find linkngb iteration 5: need to repeat for 0007041845 particles. (took 0.406458 sec)
find linkngb iteration 6: need to repeat for 0005100647 particles. (took 0.337252 sec)
find linkngb iteration 7: need to repeat for 0003208128 particles. (took 0.250613 sec)
find linkngb iteration 8: need to repeat for 0001824380 particles. (took 0.153134 sec)
find linkngb iteration 9: need to repeat for 0000976588 particles. (took 0.0915029 sec)
find linkngb iteration 10: need to repeat for 0000506027 particles. (took 0.0543711 sec)
find linkngb iteration 11: need to repeat for 0000256783 particles. (took 0.032747 sec)
find linkngb iteration 12: need to repeat for 0000054269 particles. (took 0.0206029 sec)
find linkngb iteration 13: need to repeat for 0000001216 particles. (took 0.00864697 sec)
find linkngb iteration 14: need to repeat for 0000000402 particles. (took 0.000806093 sec)
find linkngb iteration 15: need to repeat for 0000000124 particles. (took 0.00051403 sec)
find linkngb iteration 16: need to repeat for 0000000045 particles. (took 0.000459909 sec)
find linkngb iteration 17: need to repeat for 0000000016 particles. (took 0.000398874 sec)
find linkngb iteration 18: need to repeat for 0000000001 particles. (took 0.000422001 sec)
find_linkngb() took 3.73144 sec
Start finding nearest two (45328 particles on task=0)
find_nearesttwo() took 0.652907 sec (presently allocated=3963.6 MB)
parallel sort of densities done. took 0.0662751 sec
building distributed linked list. (presently allocated 3963.15 MB)
identification of primary candidates took 275.244 sec
adding background as candidate took 0.160465 sec
establishing of rank order took 84.6389 sec  (p=11597810, grouplen=11597810) presently allocated 3963.15 MB

total number of subhalo candidates=56400

number of subhalo candidates that can be done independently=49171.
(Largest size is 2776, finding them took 0.0150981 sec)
particles are marked (took 66.357)
independent subhalos are assembled on individual CPUs for unbinding (0.177326 sec, (presently allocated=3963.15 MB)
unbinding of independent ones took 0.0740628 sec
particles have returned to their original processor (0.225247 sec, presently allocated 3963.15 MB)

number of subhalo candidates that can be done independently=6650.
(Largest size is 17086, finding them took 1.03498 sec)
particles are marked (took 45.1478)
independent subhalos are assembled on individual CPUs for unbinding (0.163884 sec, (presently allocated=3963.15 MB)
unbinding of independent ones took 0.365399 sec
particles have returned to their original processor (0.210148 sec, presently allocated 3963.15 MB)

number of subhalo candidates that can be done independently=535.
(Largest size is 71973, finding them took 1.01864 sec)
particles are marked (took 37.0063)
independent subhalos are assembled on individual CPUs for unbinding (0.15363 sec, (presently allocated=3963.15 MB)
unbinding of independent ones took 3.18656 sec
particles have returned to their original processor (0.205755 sec, presently allocated 3963.15 MB)

number of subhalo candidates that can be done independently=39.
(Largest size is 213558, finding them took 0.82269 sec)
particles are marked (took 30.8508)
independent subhalos are assembled on individual CPUs for unbinding (0.147461 sec, (presently allocated=3963.15 MB)
unbinding of independent ones took 4.33823 sec
particles have returned to their original processor (0.200223 sec, presently allocated 3963.15 MB)

number of subhalo candidates that can be done independently=3.
(Largest size is 213558, finding them took 0.542076 sec)
particles are marked (took 27.6043)
independent subhalos are assembled on individual CPUs for unbinding (0.143632 sec, (presently allocated=3963.15 MB)
unbinding of independent ones took 2.40717 sec
particles have returned to their original processor (0.200426 sec, presently allocated 3963.15 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 213558, finding them took 0.534939 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=213558 ... maximum alloacted 3963.32 MB
took 4.67125 sec
collective unbinding of nr=1 (2) of length=11597810 ... maximum alloacted 3963.32 MB
took 189.632 sec

the collective unbinding of remaining halos took 219.547 sec

found 3770 bound substructures in FoF group of length 11597810
determination of parent subhalo took 0.0408418 sec (presently allocated 3963.32 MB)
determining substructure properties took 220.224 sec (presently allocated 3963.32 MB)

collectively doing halo 3, 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)
Before=137353
After=164609
NTopleaves= 144033  NTopnodes=164609 (space for 244687)
gravity work-load balance=1.00051   memory-balance=1.00051   SPH work-load balance=0
iter=0 exchange of 0005960788 particles (ret=0)
domain decomposition done. (took 0.849867 sec)
Freed 3.66568 MByte in top-level domain structure
coldomain_Decomposition() took 1.26559 sec  (presently allocated=3959.82 MB)
force_treebuild() took 1.94213 sec (presently allocated=3959.82 MB)
Start find_linkngb (23278 particles on task=0)
find linkngb iteration 1: need to repeat for 0005907238 particles. (took 0.430351 sec)
find linkngb iteration 2: need to repeat for 0005662204 particles. (took 0.297444 sec)
find linkngb iteration 3: need to repeat for 0005413395 particles. (took 0.204729 sec)
find linkngb iteration 4: need to repeat for 0004798952 particles. (took 0.23337 sec)
find linkngb iteration 5: need to repeat for 0004008693 particles. (took 0.200861 sec)
find linkngb iteration 6: need to repeat for 0002913631 particles. (took 0.164318 sec)
find linkngb iteration 7: need to repeat for 0001837224 particles. (took 0.119667 sec)
find linkngb iteration 8: need to repeat for 0001047204 particles. (took 0.0781679 sec)
find linkngb iteration 9: need to repeat for 0000562231 particles. (took 0.049392 sec)
find linkngb iteration 10: need to repeat for 0000291850 particles. (took 0.0306261 sec)
find linkngb iteration 11: need to repeat for 0000148794 particles. (took 0.020638 sec)
find linkngb iteration 12: need to repeat for 0000032015 particles. (took 0.018008 sec)
find linkngb iteration 13: need to repeat for 0000000897 particles. (took 0.00706196 sec)
find linkngb iteration 14: need to repeat for 0000000290 particles. (took 0.000655174 sec)
find linkngb iteration 15: need to repeat for 0000000108 particles. (took 0.000436068 sec)
find linkngb iteration 16: need to repeat for 0000000037 particles. (took 0.000387192 sec)
find linkngb iteration 17: need to repeat for 0000000008 particles. (took 0.00036788 sec)
find_linkngb() took 1.85743 sec
Start finding nearest two (23278 particles on task=0)
find_nearesttwo() took 0.344785 sec (presently allocated=3961.6 MB)
parallel sort of densities done. took 0.045485 sec
building distributed linked list. (presently allocated 3961.37 MB)
identification of primary candidates took 147.837 sec
adding background as candidate took 0.160144 sec
establishing of rank order took 45.1857 sec  (p=5984507, grouplen=5984507) presently allocated 3961.37 MB

total number of subhalo candidates=26843

number of subhalo candidates that can be done independently=23743.
(Largest size is 2686, finding them took 0.00799608 sec)
particles are marked (took 32.3756)
independent subhalos are assembled on individual CPUs for unbinding (0.151353 sec, (presently allocated=3961.37 MB)
unbinding of independent ones took 0.06113 sec
particles have returned to their original processor (0.200092 sec, presently allocated 3961.37 MB)

number of subhalo candidates that can be done independently=2838.
(Largest size is 12460, finding them took 1.04185 sec)
particles are marked (took 21.5192)
independent subhalos are assembled on individual CPUs for unbinding (0.150284 sec, (presently allocated=3961.37 MB)
unbinding of independent ones took 0.299071 sec
particles have returned to their original processor (0.201294 sec, presently allocated 3961.37 MB)

number of subhalo candidates that can be done independently=245.
(Largest size is 37984, finding them took 1.02679 sec)
particles are marked (took 17.4732)
independent subhalos are assembled on individual CPUs for unbinding (0.146118 sec, (presently allocated=3961.37 MB)
unbinding of independent ones took 0.86248 sec
particles have returned to their original processor (0.199348 sec, presently allocated 3961.37 MB)

number of subhalo candidates that can be done independently=14.
(Largest size is 272921, finding them took 0.979509 sec)
particles are marked (took 16.5397)
independent subhalos are assembled on individual CPUs for unbinding (0.148253 sec, (presently allocated=3961.37 MB)
unbinding of independent ones took 3.08457 sec
particles have returned to their original processor (0.210514 sec, presently allocated 3961.37 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 272921, finding them took 0.548239 sec)
particles are marked (took 12.5596)
independent subhalos are assembled on individual CPUs for unbinding (0.134502 sec, (presently allocated=3961.37 MB)
unbinding of independent ones took 0.062531 sec
particles have returned to their original processor (0.186473 sec, presently allocated 3961.37 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 272921, finding them took 0.468036 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=272921 ... maximum alloacted 3961.46 MB
took 4.89526 sec
collective unbinding of nr=1 (2) of length=5984507 ... maximum alloacted 3961.46 MB
took 104.039 sec

the collective unbinding of remaining halos took 120.895 sec

found 2302 bound substructures in FoF group of length 5984507
determination of parent subhalo took 0.0326431 sec (presently allocated 3961.46 MB)
determining substructure properties took 121.613 sec (presently allocated 3961.46 MB)

collectively doing halo 4, 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)
Before=141753
After=164745
NTopleaves= 144152  NTopnodes=164745 (space for 244687)
gravity work-load balance=1.00052   memory-balance=1.00052   SPH work-load balance=0
iter=0 exchange of 0004382305 particles (ret=0)
domain decomposition done. (took 0.834267 sec)
Freed 3.65945 MByte in top-level domain structure
coldomain_Decomposition() took 1.24956 sec  (presently allocated=3959.85 MB)
force_treebuild() took 1.98018 sec (presently allocated=3959.85 MB)
Start find_linkngb (17157 particles on task=0)
find linkngb iteration 1: need to repeat for 0004369507 particles. (took 0.30807 sec)
find linkngb iteration 2: need to repeat for 0004246089 particles. (took 0.208817 sec)
find linkngb iteration 3: need to repeat for 0004066768 particles. (took 0.145026 sec)
find linkngb iteration 4: need to repeat for 0003623740 particles. (took 0.184881 sec)
find linkngb iteration 5: need to repeat for 0003031195 particles. (took 0.142079 sec)
find linkngb iteration 6: need to repeat for 0002203718 particles. (took 0.117633 sec)
find linkngb iteration 7: need to repeat for 0001390407 particles. (took 0.086199 sec)
find linkngb iteration 8: need to repeat for 0000792975 particles. (took 0.057497 sec)
find linkngb iteration 9: need to repeat for 0000425184 particles. (took 0.0370619 sec)
find linkngb iteration 10: need to repeat for 0000220435 particles. (took 0.0232351 sec)
find linkngb iteration 11: need to repeat for 0000112174 particles. (took 0.015655 sec)
find linkngb iteration 12: need to repeat for 0000024342 particles. (took 0.0109859 sec)
find linkngb iteration 13: need to repeat for 0000000788 particles. (took 0.00608301 sec)
find linkngb iteration 14: need to repeat for 0000000262 particles. (took 0.000555038 sec)
find linkngb iteration 15: need to repeat for 0000000093 particles. (took 0.000416994 sec)
find linkngb iteration 16: need to repeat for 0000000033 particles. (took 0.000363827 sec)
find linkngb iteration 17: need to repeat for 0000000012 particles. (took 0.000331163 sec)
find linkngb iteration 18: need to repeat for 0000000005 particles. (took 0.000347137 sec)
find linkngb iteration 19: need to repeat for 0000000001 particles. (took 0.00030303 sec)
find_linkngb() took 1.34637 sec
Start finding nearest two (17157 particles on task=0)
find_nearesttwo() took 0.255499 sec (presently allocated=3961.16 MB)
parallel sort of densities done. took 0.0413108 sec
building distributed linked list. (presently allocated 3960.99 MB)
identification of primary candidates took 110.324 sec
adding background as candidate took 0.157174 sec
establishing of rank order took 34.7802 sec  (p=4396799, grouplen=4396799) presently allocated 3960.99 MB

total number of subhalo candidates=19056

number of subhalo candidates that can be done independently=17002.
(Largest size is 2045, finding them took 0.0052681 sec)
particles are marked (took 22.9739)
independent subhalos are assembled on individual CPUs for unbinding (0.146839 sec, (presently allocated=3960.99 MB)
unbinding of independent ones took 0.0294962 sec
particles have returned to their original processor (0.198813 sec, presently allocated 3960.99 MB)

number of subhalo candidates that can be done independently=1907.
(Largest size is 17152, finding them took 1.05479 sec)
particles are marked (took 16.4093)
independent subhalos are assembled on individual CPUs for unbinding (0.149617 sec, (presently allocated=3960.99 MB)
unbinding of independent ones took 0.370222 sec
particles have returned to their original processor (0.204205 sec, presently allocated 3960.99 MB)

number of subhalo candidates that can be done independently=138.
(Largest size is 136476, finding them took 1.15836 sec)
particles are marked (took 15.4481)
independent subhalos are assembled on individual CPUs for unbinding (0.14886 sec, (presently allocated=3960.99 MB)
unbinding of independent ones took 3.69267 sec
particles have returned to their original processor (0.218684 sec, presently allocated 3960.99 MB)

number of subhalo candidates that can be done independently=8.
(Largest size is 146255, finding them took 0.572061 sec)
particles are marked (took 12.0525)
independent subhalos are assembled on individual CPUs for unbinding (0.159099 sec, (presently allocated=3960.99 MB)
unbinding of independent ones took 5.48946 sec
particles have returned to their original processor (0.226396 sec, presently allocated 3960.99 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 4396799, finding them took 0.555645 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=4396799 ... maximum alloacted 3961.06 MB
took 73.3438 sec

the collective unbinding of remaining halos took 81.9366 sec

found 1642 bound substructures in FoF group of length 4396799
determination of parent subhalo took 0.029407 sec (presently allocated 3961.06 MB)
determining substructure properties took 89.4771 sec (presently allocated 3961.06 MB)

collectively doing halo 5, 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)
Before=146769
After=168105
NTopleaves= 147092  NTopnodes=168105 (space for 244687)
gravity work-load balance=1.00044   memory-balance=1.00044   SPH work-load balance=0
iter=0 exchange of 0003162483 particles (ret=0)
domain decomposition done. (took 0.829478 sec)
Freed 3.50565 MByte in top-level domain structure
coldomain_Decomposition() took 1.24137 sec  (presently allocated=3960.61 MB)
force_treebuild() took 1.97713 sec (presently allocated=3960.61 MB)
Start find_linkngb (12409 particles on task=0)
find linkngb iteration 1: need to repeat for 0003167385 particles. (took 0.218622 sec)
find linkngb iteration 2: need to repeat for 0003108827 particles. (took 0.14461 sec)
find linkngb iteration 3: need to repeat for 0002981835 particles. (took 0.102029 sec)
find linkngb iteration 4: need to repeat for 0002671771 particles. (took 0.117905 sec)
find linkngb iteration 5: need to repeat for 0002241903 particles. (took 0.101804 sec)
find linkngb iteration 6: need to repeat for 0001635104 particles. (took 0.0845721 sec)
find linkngb iteration 7: need to repeat for 0001032139 particles. (took 0.0647528 sec)
find linkngb iteration 8: need to repeat for 0000588629 particles. (took 0.0425529 sec)
find linkngb iteration 9: need to repeat for 0000315978 particles. (took 0.028023 sec)
find linkngb iteration 10: need to repeat for 0000163844 particles. (took 0.0184419 sec)
find linkngb iteration 11: need to repeat for 0000083475 particles. (took 0.015342 sec)
find linkngb iteration 12: need to repeat for 0000018358 particles. (took 0.0122859 sec)
find linkngb iteration 13: need to repeat for 0000000626 particles. (took 0.00545096 sec)
find linkngb iteration 14: need to repeat for 0000000200 particles. (took 0.00048399 sec)
find linkngb iteration 15: need to repeat for 0000000070 particles. (took 0.000375986 sec)
find linkngb iteration 16: need to repeat for 0000000028 particles. (took 0.000319004 sec)
find linkngb iteration 17: need to repeat for 0000000005 particles. (took 0.000306129 sec)
find linkngb iteration 18: need to repeat for 0000000001 particles. (took 0.000304937 sec)
find_linkngb() took 0.958961 sec
Start finding nearest two (12409 particles on task=0)
find_nearesttwo() took 0.186472 sec (presently allocated=3961.55 MB)
parallel sort of densities done. took 0.0378239 sec
building distributed linked list. (presently allocated 3961.43 MB)
identification of primary candidates took 82.1396 sec
adding background as candidate took 0.158323 sec
establishing of rank order took 25.4794 sec  (p=3176326, grouplen=3176326) presently allocated 3961.43 MB

total number of subhalo candidates=12894

number of subhalo candidates that can be done independently=11646.
(Largest size is 4860, finding them took 0.00367498 sec)
particles are marked (took 16.0505)
independent subhalos are assembled on individual CPUs for unbinding (0.14262 sec, (presently allocated=3961.43 MB)
unbinding of independent ones took 0.0925908 sec
particles have returned to their original processor (0.215253 sec, presently allocated 3961.43 MB)

number of subhalo candidates that can be done independently=1180.
(Largest size is 18806, finding them took 1.0651 sec)
particles are marked (took 10.806)
independent subhalos are assembled on individual CPUs for unbinding (0.145553 sec, (presently allocated=3961.43 MB)
unbinding of independent ones took 0.429877 sec
particles have returned to their original processor (0.198447 sec, presently allocated 3961.43 MB)

number of subhalo candidates that can be done independently=58.
(Largest size is 62273, finding them took 1.00669 sec)
particles are marked (took 9.29888)
independent subhalos are assembled on individual CPUs for unbinding (0.148962 sec, (presently allocated=3961.43 MB)
unbinding of independent ones took 1.44495 sec
particles have returned to their original processor (0.212925 sec, presently allocated 3961.43 MB)

number of subhalo candidates that can be done independently=8.
(Largest size is 96964, finding them took 0.556162 sec)
particles are marked (took 9.12984)
independent subhalos are assembled on individual CPUs for unbinding (0.152564 sec, (presently allocated=3961.43 MB)
unbinding of independent ones took 2.13534 sec
particles have returned to their original processor (0.216798 sec, presently allocated 3961.43 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 271155, finding them took 0.554984 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=271155 ... maximum alloacted 3961.48 MB
took 8.4969 sec
collective unbinding of nr=1 (2) of length=3176326 ... maximum alloacted 3961.48 MB
took 59.3135 sec

the collective unbinding of remaining halos took 73.5749 sec

found 1207 bound substructures in FoF group of length 3176326
determination of parent subhalo took 0.0599799 sec (presently allocated 3961.48 MB)
determining substructure properties took 67.6632 sec (presently allocated 3961.48 MB)
processing of collective halos took 4376.96 sec
sort of local particles()() took 0.549331 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 346.819 sec

Task 253: testing particles ...
Task 254: testing particles ...
Task 250: testing particles ...
Task 255: testing particles ...
Task 151: testing particles ...
Task 229: testing particles ...
Task 208: testing particles ...
Task 175: testing particles ...
Task 239: testing particles ...
Task 207: testing particles ...
Task 218: testing particles ...
Task 251: testing particles ...
Task 184: testing particles ...
Task 162: testing particles ...
Task 219: testing particles ...
Task 240: testing particles ...
Task 241: testing particles ...
Task 141: testing particles ...
Task 108: testing particles ...
Task 195: testing particles ...
Task 153: testing particles ...
Task 230: testing particles ...
Task 120: testing particles ...
Task 173: testing particles ...
Task 206: testing particles ...
Task 185: testing particles ...
Task 142: testing particles ...
Task 174: testing particles ...
Task 130: testing particles ...
Task 197: testing particles ...
Task 228: testing particles ...
Task 129: testing particles ...
Task 163: testing particles ...
Task 196: testing particles ...
Task 1: testing particles ...
Task 86: testing particles ...
Task 87: testing particles ...
Task 217: testing particles ...
Task 118: testing particles ...
Task 131: testing particles ...
Task 252: testing particles ...
Task 164: testing particles ...
Task 119: testing particles ...
Task 65: testing particles ...
Task 74: testing particles ...
Task 186: testing particles ...
Task 140: testing particles ...
Task 96: testing particles ...
Task 152: testing particles ...
Task 98: testing particles ...
Task 109: testing particles ...
Task 97: testing particles ...
Task 85: testing particles ...
Task 54: testing particles ...
Task 76: testing particles ...
Task 63: testing particles ...
Task 75: testing particles ...
Task 190: testing particles ...
Task 231: testing particles ...
Task 212: testing particles ...
Task 2: testing particles ...
Task 213: testing particles ...
Task 205: testing particles ...
Task 203: testing particles ...
Task 235: testing particles ...
Task 223: testing particles ...
Task 107: testing particles ...
unsorting of local particles()() took 0.479235 sec
Task 0: testing particles ...
Task 53: testing particles ...
Task 248: testing particles ...
Task 170: testing particles ...
Task 149: testing particles ...
Task 200: testing particles ...
Task 204: testing particles ...
Task 64: testing particles ...
Task 168: testing particles ...
Task 242: testing particles ...
Task 178: testing particles ...
Task 193: testing particles ...
Task 110: testing particles ...
Task 155: testing particles ...
Task 188: testing particles ...
Task 221: testing particles ...
Task 192: testing particles ...
Task 4: testing particles ...
Task 199: testing particles ...
Task 233: testing particles ...
Task 161: testing particles ...
Task 181: testing particles ...
Task 3: testing particles ...
Task 247: testing particles ...
Task 135: testing particles ...
Task 102: testing particles ...
Task 95: testing particles ...
Task 244: testing particles ...
Task 224: testing particles ...
Task 94: testing particles ...
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subfind_exchange() (for return to original CPU)  took 3.39938 sec
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)
Before=185889
After=204153
NTopleaves= 178634  NTopnodes=204153 (space for 244687)
gravity work-load balance=1.00046   memory-balance=1.00046   SPH work-load balance=0
iter=0 exchange of 0273379382 particles (ret=0)
domain decomposition done. (took 3.61625 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.8555 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000154296 particles. (took 0.028878 sec)
SO iteration 2: need to repeat for 0000154296 particles. (took 0.0225909 sec)
SO iteration 3: need to repeat for 0000154296 particles. (took 0.020838 sec)
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SO iteration 15: need to repeat for 0000153753 particles. (took 0.022963 sec)
SO iteration 16: need to repeat for 0000000431 particles. (took 0.0207798 sec)
SO iteration 17: need to repeat for 0000000040 particles. (took 0.00116205 sec)
SO iteration 1: need to repeat for 0000154296 particles. (took 0.02211 sec)
SO iteration 2: need to repeat for 0000154296 particles. (took 0.018857 sec)
SO iteration 3: need to repeat for 0000154296 particles. (took 0.0202789 sec)
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SO iteration 8: need to repeat for 0000154296 particles. (took 0.0198019 sec)
SO iteration 9: need to repeat for 0000154296 particles. (took 0.0198779 sec)
SO iteration 10: need to repeat for 0000154296 particles. (took 0.0198171 sec)
SO iteration 11: need to repeat for 0000154296 particles. (took 0.0195522 sec)
SO iteration 12: need to repeat for 0000154296 particles. (took 0.0209999 sec)
SO iteration 13: need to repeat for 0000154296 particles. (took 0.021445 sec)
SO iteration 14: need to repeat for 0000154296 particles. (took 0.0197051 sec)
SO iteration 15: need to repeat for 0000154161 particles. (took 0.0195768 sec)
SO iteration 16: need to repeat for 0000017006 particles. (took 0.0194788 sec)
SO iteration 17: need to repeat for 0000000283 particles. (took 0.00605083 sec)
SO iteration 18: need to repeat for 0000000048 particles. (took 0.000917196 sec)
SO iteration 1: need to repeat for 0000154296 particles. (took 0.021091 sec)
SO iteration 2: need to repeat for 0000154296 particles. (took 0.018317 sec)
SO iteration 3: need to repeat for 0000154296 particles. (took 0.0175099 sec)
SO iteration 4: need to repeat for 0000154296 particles. (took 0.017802 sec)
SO iteration 5: need to repeat for 0000154296 particles. (took 0.0176082 sec)
SO iteration 6: need to repeat for 0000154296 particles. (took 0.0172839 sec)
SO iteration 7: need to repeat for 0000154296 particles. (took 0.0173109 sec)
SO iteration 8: need to repeat for 0000154296 particles. (took 0.017406 sec)
SO iteration 9: need to repeat for 0000154296 particles. (took 0.0177429 sec)
SO iteration 10: need to repeat for 0000154296 particles. (took 0.0172639 sec)
SO iteration 11: need to repeat for 0000154296 particles. (took 0.017581 sec)
SO iteration 12: need to repeat for 0000154296 particles. (took 0.0175581 sec)
SO iteration 13: need to repeat for 0000154296 particles. (took 0.0177491 sec)
SO iteration 14: need to repeat for 0000154296 particles. (took 0.017885 sec)
SO iteration 15: need to repeat for 0000154284 particles. (took 0.0177209 sec)
SO iteration 16: need to repeat for 0000154257 particles. (took 0.0177 sec)
SO iteration 17: need to repeat for 0000025553 particles. (took 0.017899 sec)
SO iteration 18: need to repeat for 0000000509 particles. (took 0.00643706 sec)
SO iteration 19: need to repeat for 0000000072 particles. (took 0.00106287 sec)
SO iteration 1: need to repeat for 0000154296 particles. (took 0.0212212 sec)
SO iteration 2: need to repeat for 0000154296 particles. (took 0.018513 sec)
SO iteration 3: need to repeat for 0000154296 particles. (took 0.020385 sec)
SO iteration 4: need to repeat for 0000154296 particles. (took 0.0204759 sec)
SO iteration 5: need to repeat for 0000154296 particles. (took 0.0205011 sec)
SO iteration 6: need to repeat for 0000154296 particles. (took 0.0228941 sec)
SO iteration 7: need to repeat for 0000154296 particles. (took 0.021523 sec)
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SO iteration 15: need to repeat for 0000153987 particles. (took 0.0207222 sec)
SO iteration 16: need to repeat for 0000001674 particles. (took 0.0207059 sec)
SO iteration 17: need to repeat for 0000000089 particles. (took 0.00183892 sec)
SO iteration 18: need to repeat for 0000000006 particles. (took 0.000898123 sec)
SO iteration 1: need to repeat for 0000154296 particles. (took 0.0216131 sec)
SO iteration 2: need to repeat for 0000154296 particles. (took 0.02106 sec)
SO iteration 3: need to repeat for 0000154296 particles. (took 0.0201602 sec)
SO iteration 4: need to repeat for 0000154296 particles. (took 0.0193069 sec)
SO iteration 5: need to repeat for 0000154296 particles. (took 0.020134 sec)
SO iteration 6: need to repeat for 0000154296 particles. (took 0.0200019 sec)
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SO iteration 8: need to repeat for 0000154296 particles. (took 0.0197558 sec)
SO iteration 9: need to repeat for 0000154296 particles. (took 0.0199029 sec)
SO iteration 10: need to repeat for 0000154296 particles. (took 0.019608 sec)
SO iteration 11: need to repeat for 0000154296 particles. (took 0.0201871 sec)
SO iteration 12: need to repeat for 0000154296 particles. (took 0.0198131 sec)
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SO iteration 15: need to repeat for 0000154158 particles. (took 0.019407 sec)
SO iteration 16: need to repeat for 0000016111 particles. (took 0.0193241 sec)
SO iteration 17: need to repeat for 0000000272 particles. (took 0.00506997 sec)
SO iteration 18: need to repeat for 0000000045 particles. (took 0.000878096 sec)
SO iteration 1: need to repeat for 0000154296 particles. (took 0.021229 sec)
SO iteration 2: need to repeat for 0000154296 particles. (took 0.018398 sec)
SO iteration 3: need to repeat for 0000154296 particles. (took 0.0172589 sec)
SO iteration 4: need to repeat for 0000154296 particles. (took 0.017689 sec)
SO iteration 5: need to repeat for 0000154296 particles. (took 0.018038 sec)
SO iteration 6: need to repeat for 0000154296 particles. (took 0.0180821 sec)
SO iteration 7: need to repeat for 0000154296 particles. (took 0.017978 sec)
SO iteration 8: need to repeat for 0000154296 particles. (took 0.0181849 sec)
SO iteration 9: need to repeat for 0000154296 particles. (took 0.0181282 sec)
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SO iteration 11: need to repeat for 0000154296 particles. (took 0.0179002 sec)
SO iteration 12: need to repeat for 0000154296 particles. (took 0.018106 sec)
SO iteration 13: need to repeat for 0000154296 particles. (took 0.017797 sec)
SO iteration 14: need to repeat for 0000154296 particles. (took 0.0178039 sec)
SO iteration 15: need to repeat for 0000154273 particles. (took 0.0177989 sec)
SO iteration 16: need to repeat for 0000154160 particles. (took 0.01793 sec)
SO iteration 17: need to repeat for 0000002720 particles. (took 0.018189 sec)
SO iteration 18: need to repeat for 0000000201 particles. (took 0.00204015 sec)
SO iteration 19: need to repeat for 0000000012 particles. (took 0.001194 sec)
SO iteration 1: need to repeat for 0000154296 particles. (took 0.021843 sec)
SO iteration 2: need to repeat for 0000154296 particles. (took 0.01898 sec)
SO iteration 3: need to repeat for 0000154296 particles. (took 0.0176702 sec)
SO iteration 4: need to repeat for 0000154296 particles. (took 0.018297 sec)
SO iteration 5: need to repeat for 0000154296 particles. (took 0.0613151 sec)
SO iteration 6: need to repeat for 0000154296 particles. (took 0.0212111 sec)
SO iteration 7: need to repeat for 0000154296 particles. (took 0.017092 sec)
SO iteration 8: need to repeat for 0000154296 particles. (took 0.055335 sec)
SO iteration 9: need to repeat for 0000154296 particles. (took 0.018399 sec)
SO iteration 10: need to repeat for 0000154296 particles. (took 0.0549409 sec)
SO iteration 11: need to repeat for 0000154296 particles. (took 0.041986 sec)
SO iteration 12: need to repeat for 0000154296 particles. (took 0.0203781 sec)
SO iteration 13: need to repeat for 0000154296 particles. (took 0.0171812 sec)
SO iteration 14: need to repeat for 0000154296 particles. (took 0.017375 sec)
SO iteration 15: need to repeat for 0000154293 particles. (took 0.0171971 sec)
SO iteration 16: need to repeat for 0000154286 particles. (took 0.0171151 sec)
SO iteration 17: need to repeat for 0000154196 particles. (took 0.017251 sec)
SO iteration 18: need to repeat for 0000007862 particles. (took 0.017067 sec)
SO iteration 19: need to repeat for 0000000264 particles. (took 0.00307894 sec)
SO iteration 20: need to repeat for 0000000023 particles. (took 0.000988007 sec)
SO iteration 21: need to repeat for 0000000001 particles. (took 0.000855923 sec)
determining spherical overdensity masses took 2.45142 sec
finding spherical overdensity particles took 0.502209 sec
determining contamination of halos took 0.198841 sec
Global sort of Groups took 0.092881 sec
Global sort of SubGroups took 0.296581 sec
Global sort of IDs took 0.487652 sec
Writing block 0 (GLEN), n=741, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2964d
Writing block 1 (GOFF), n=741, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2964d
Writing block 2 (MTOT), n=741, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2964d
Writing block 3 (GPOS), n=741, ptype=0, dtype=1, ndim=3, bpb=4 bytes=8892d
Writing block 4 (MMEA), n=741, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2964d
Writing block 5 (RMEA), n=741, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2964d
Writing block 6 (MCRI), n=741, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2964d
Writing block 7 (RCRI), n=741, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2964d
Writing block 8 (MTOP), n=741, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2964d
Writing block 9 (RTOP), n=741, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2964d
Writing block 17 (NCON), n=741, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2964d
Writing block 18 (MCON), n=741, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2964d
Writing block 22 (NSUB), n=741, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2964d
Writing block 23 (FSUB), n=741, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2964d
Writing block 24 (SLEN), n=6858, ptype=1, dtype=0, ndim=1, bpb=4 bytes=27432d
Writing block 25 (SOFF), n=6858, ptype=1, dtype=0, ndim=1, bpb=4 bytes=27432d
Writing block 27 (MSUB), n=6858, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 28 (SPOS), n=6858, ptype=1, dtype=1, ndim=3, bpb=4 bytes=82296d
Writing block 29 (SVEL), n=6858, ptype=1, dtype=1, ndim=3, bpb=4 bytes=82296d
Writing block 30 (SCM ), n=6858, ptype=1, dtype=1, ndim=3, bpb=4 bytes=82296d
Writing block 33 (VMAX), n=6858, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 34 (RMAX), n=6858, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 35 (RHMS), n=6858, ptype=1, dtype=1, ndim=6, bpb=4 bytes=164592d
Writing block 36 (MTRH), n=6858, ptype=1, dtype=1, ndim=6, bpb=4 bytes=164592d
Writing block 37 (MBID), n=6858, ptype=1, dtype=2, ndim=1, bpb=8 bytes=54864d
Writing block 38 (GRNR), n=6858, ptype=1, dtype=0, ndim=1, bpb=4 bytes=27432d
Writing block 39 (SUBN), n=6858, ptype=1, dtype=0, ndim=1, bpb=4 bytes=27432d
Writing block 40 (SMST), n=6858, ptype=1, dtype=1, ndim=6, bpb=4 bytes=164592d
Writing block 53 (PID ), n=623838, ptype=2, dtype=2, ndim=1, bpb=8 bytes=4990704d
Writing block 54 (SLEN), n=6858, ptype=1, dtype=0, ndim=6, bpb=4 bytes=164592d
Writing block 55 (STEN), n=6858, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 56 (SKEN), n=6858, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 57 (SUEN), n=6858, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 58 (SUIT), n=6858, ptype=1, dtype=1, ndim=9, bpb=4 bytes=246888d
Writing block 59 (BHMA), n=6858, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 60 (BHMD), n=6858, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 61 (SVD ), n=6858, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 62 (SVDH), n=6858, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 63 (HMPR), n=6858, ptype=1, dtype=1, ndim=6, bpb=4 bytes=164592d
Writing block 64 (SSFR), n=6858, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 65 (SSA ), n=6858, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 66 (SSBZ), n=6858, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 67 (SSIM), n=6858, ptype=1, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 68 (SSPI), n=6858, ptype=4, dtype=1, ndim=3, bpb=4 bytes=82296d
Writing block 69 (GSPI), n=6858, ptype=1, dtype=1, ndim=3, bpb=4 bytes=82296d
Writing block 70 (FSPI), n=6858, ptype=5, dtype=1, ndim=3, bpb=4 bytes=82296d
Writing block 71 (SFM ), n=6858, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 72 (SFMT), n=6858, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 73 (SFME), n=6858, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 74 (SFAE), n=6858, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 75 (SFKE), n=6858, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 76 (SFTE), n=6858, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 77 (SMWP), n=6858, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 78 (SMM ), n=6858, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 79 (SMMS), n=6858, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 80 (SFZ ), n=6858, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 81 (SFZS), n=6858, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 82 (SSIA), n=6858, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 83 (SIAS), n=6858, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 84 (SMET), n=6858, ptype=5, dtype=1, ndim=9, bpb=4 bytes=246888d
Writing block 85 (SMTS), n=6858, ptype=5, dtype=1, ndim=9, bpb=4 bytes=246888d
Writing block 86 (MF1 ), n=6858, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 87 (MeF1), n=6858, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 88 (MF  ), n=6858, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 89 (MeF2), n=6858, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 90 (MFA ), n=6858, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 91 (MeFA), n=6858, ptype=5, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 92 (NSPI), n=6858, ptype=6, dtype=1, ndim=3, bpb=4 bytes=82296d
Writing block 93 (NFM ), n=6858, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 94 (NFMT), n=6858, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 95 (NFME), n=6858, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 96 (NFAE), n=6858, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 97 (NFKE), n=6858, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 98 (NFTE), n=6858, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 99 (SMWP), n=6858, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 100 (SMM ), n=6858, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 101 (SMMS), n=6858, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 102 (SSIA), n=6858, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 103 (SIAS), n=6858, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 104 (SMET), n=6858, ptype=6, dtype=1, ndim=9, bpb=4 bytes=246888d
Writing block 105 (SMTS), n=6858, ptype=6, dtype=1, ndim=9, bpb=4 bytes=246888d
Writing block 106 (MF1 ), n=6858, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 107 (MeF1), n=6858, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 108 (MF2 ), n=6858, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 109 (MeF2), n=6858, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 110 (MFA ), n=6858, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 111 (MeFA), n=6858, ptype=6, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 112 (SM  ), n=6858, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 113 (SFKE), n=6858, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 114 (SFAE), n=6858, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 115 (SMWP), n=6858, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 116 (SMM ), n=6858, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 117 (SMMS), n=6858, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 118 (SSIA), n=6858, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 119 (SIAS), n=6858, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 120 (SMET), n=6858, ptype=4, dtype=1, ndim=9, bpb=4 bytes=246888d
Writing block 121 (SMTS), n=6858, ptype=4, dtype=1, ndim=9, bpb=4 bytes=246888d
Writing block 122 (MF1 ), n=6858, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 123 (MeF1), n=6858, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 124 (MF2 ), n=6858, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 125 (MeF2), n=6858, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 126 (MFA ), n=6858, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 127 (MeFA), n=6858, ptype=4, dtype=1, ndim=1, bpb=4 bytes=27432d
Writing block 128 (MMe5), n=741, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2964d
Writing block 129 (RMe5), n=741, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2964d
Writing block 130 (MCr5), n=741, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2964d
Writing block 131 (RCr5), n=741, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2964d
Writing block 132 (MMe2), n=741, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2964d
Writing block 133 (RMe2), n=741, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2964d
Writing block 134 (MCr2), n=741, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2964d
Writing block 135 (RCr2), n=741, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2964d
Writing block 136 (MAPT), n=6858, ptype=7, dtype=1, ndim=60, bpb=4 bytes=1645920d
Writing block 137 (SAPT), n=6858, ptype=8, dtype=1, ndim=10, bpb=4 bytes=274320d
Writing block 138 (VAPT), n=6858, ptype=9, dtype=1, ndim=10, bpb=4 bytes=274320d
Writing block 139 (BEGY), n=623838, ptype=2, dtype=1, ndim=1, bpb=4 bytes=2495352d
Subgroup catalogues saved. took = 7.32212 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 6.291630e-01
 eagle_ph_key_ort: type= 2 timed by volker 7.046390e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.334617e-02
 eagle_ph_key_ort: type= 4 timed by volker 4.334617e-02
 eagle_ph_key_ort: type= 5 timed by volker 4.334617e-02
 eagle_ph_key_ort: timing parallel sort = 7.487071e-01
 eagle_fetch_elements: we are using 1654180582 bytes of memory, FreeBytes= 2067725728

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 3478.07 Mbyte (on task=0), Smallest = 1316.78 Mbyte, Average = 1356.23 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      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 2977 0   sort_index_data     24.4818    3478.0631  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 2011060 number of bytes = 643539200

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 5054.96 Mbyte (on task=0), Smallest = 2893.87 Mbyte, Average = 2933.63 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 2977 0   sort_index_data     24.4818    3478.0631  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx      7.6716    3485.7347  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv      7.6716    3493.4062  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send      7.6716    3501.0778  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    613.7268    4114.8046  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    613.7268    4728.5314  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result    326.4243    5054.9557  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.074095e+00
 eagle_fetch_elements: we are using 1654180582 bytes of memory, FreeBytes= 2067725728
 eagle_fetch_elements: max_bytes= 504, max_elements= 1621745 number of bytes = 817359480
 eagle_ph_key_ort: timing parallel SphP exchange = 3.804922e-03
 eagle_fetch_elements: we are using 1654180582 bytes of memory, FreeBytes= 2067725728
 eagle_fetch_elements: max_bytes= 384, max_elements= 2120744 number of bytes = 814365696
 eagle_ph_key_ort: timing parallel MetP exchange = 7.491112e-04
 eagle_fetch_elements: we are using 1654180582 bytes of memory, FreeBytes= 2067725728
 eagle_fetch_elements: max_bytes= 256, max_elements= 3156833 number of bytes = 808149248
 eagle_ph_key_ort: timing parallel BHP exchange = 1.013041e-03
Sorting particle-data by peano-hilbert key took = 3.20832 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1654180582 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 2011060 number of bytes= 643539200
 eagle_ph_restore: timing parallel P exchange = 2.002994e+00
 eagle_send_elements: we are using 1654180582 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1621745 number of bytes= 817359480
 eagle_ph_restore: timing parallel SphP exchange = 2.453089e-03
 eagle_send_elements: we are using 1654180582 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2120744 number of bytes= 814365696
 eagle_ph_restore: timing parallel MetP exchange = 6.518364e-04
 eagle_send_elements: we are using 1654180582 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 3156833 number of bytes= 808149248
 eagle_ph_restore: timing parallel BHP exchange = 6.380081e-04
Restoring original order after ph key sorting took = 2.02341 sec

finished writing particle file...

Finished with SUBFIND.  (total time=4884.71 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=179449
After=199393
NTopleaves= 174469  NTopnodes=199393 (space for 244687)
gravity work-load balance=1.0005   memory-balance=1.0005   SPH work-load balance=0
iter=0 exchange of 0273016801 particles (ret=0)
domain decomposition done. (took 3.48504 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.07339 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
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 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


 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


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


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


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
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
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 96
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


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


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:
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 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
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong 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


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


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
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 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 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 = 4960.45 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:
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
