-------------------------------------------------------------------------------------------
AvailMem:	 Largest =  128970.21 Mb (on task=106), Smallest =  128963.29 Mb (on task=0), Average =  128965.59 Mb
Total Mem:	 Largest =  129069.07 Mb (on task=0), Smallest =  129069.07 Mb (on task=0), Average =  129069.07 Mb
Committed_AS:	 Largest =     105.78 Mb (on task=0), Smallest =      98.86 Mb (on task=106), Average =     103.48 Mb
SwapTotal:	 Largest =       0.00 Mb (on task=0), Smallest =       0.00 Mb (on task=0), Average =       0.00 Mb
SwapFree:	 Largest =       0.00 Mb (on task=0), Smallest =       0.00 Mb (on task=0), Average =       0.00 Mb
AllocMem:	 Largest =     105.78 Mb (on task=0), Smallest =      98.86 Mb (on task=106), Average =     103.48 Mb
-------------------------------------------------------------------------------------------
Using 1 OpenMP threads

This is P-Gadget, version 3.0.

Running on 128 MPI tasks.

Using 1 OpenMP threads

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
        NOCALLSOFSYSTEM
svn version:exported

Size of particle structure       296  [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.N2':
RunLabel                           "HaloF22_DM-N1024_ID67"
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                      /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/
YieldTablePath                     /zhome/academic/HLRS/xap/xapybahe/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         0
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         60000
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                 /zhome/academic/HLRS/xap/xapybahe/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /zhome/academic/HLRS/xap/xapybahe/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 17142.2 MByte for particle storage.


reading file `data//snapshot_029_z000p000/snap_029_z000p000.0.hdf5' on task=0 (contains 136195914 particles.)
distributing this file to tasks 0-7
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  135454212  (tot=     2124916242) masstab=0.000779539
Type 2 (disk):      8559  (tot=     0000134208) masstab=0
Type 3 (bulge):   733143  (tot=     0002354161) 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 :  2127404611


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=5.6946 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=17144.2 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=17646.6 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 17646.6 Mbyte (on task=1), Smallest = 17646.6 Mbyte, Average = 17646.6 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2965 0     ProcessedFlag     55.4764      57.4332  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle    221.9056     279.3388  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin    221.9056     501.2444  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin    221.9056     723.1499  allocate_memory()/allocate.c/61
   1 2969 0                 P  16421.0134   17144.1633  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes     23.0782   17167.3040  domain_allocate()/domain.c/570
   1 2973 0        domain_key    443.8112   17611.1152  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      1.7752   17612.8963  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      1.7752   17614.6715  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      1.7752   17616.4468  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      1.7752   17618.2220  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      1.7752   17619.9992  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      1.7752   17621.7764  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes     24.8534   17646.6299  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=102977
After=103577
NTopleaves= 90630  NTopnodes=103577 (space for 465370)
gravity work-load balance=1.00034   memory-balance=1.00034   SPH work-load balance=0
iter=0 exchange of 2110042818 particles (ret=0)
domain decomposition done. (took 29.341 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 16.5616 MByte in top-level domain structure

Allocated 7296.28 MByte for BH-tree, and 0.345726 Mbyte for top-leaves.  (presently allocted 24446 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 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 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 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 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 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 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 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 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 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 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 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 predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities 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 = 24788.8 Mbyte (on task=22), Smallest = 24788.4 Mbyte, Average = 24788.7 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  22 2965 0     ProcessedFlag     55.4764      57.4332  allocate_memory()/allocate.c/52
  22 2966 0  NextActiveParticle    221.9056     279.3388  allocate_memory()/allocate.c/55
  22 2967 0     NextInTimeBin    221.9056     501.2444  allocate_memory()/allocate.c/58
  22 2968 0     PrevInTimeBin    221.9056     723.1499  allocate_memory()/allocate.c/61
  22 2969 0                 P  16421.0134   17144.1633  allocate_memory()/allocate.c/67
  22 2972 0          TopNodes      5.1365   17149.3623  domain_allocate()/domain.c/570
  22 2973 0   DomainNodeIndex      0.3457   17149.7080  force_treeallocate()/forcetree.c/4800
  22 2974 0        Nodes_base   3737.4966   20887.2047  force_treeallocate()/forcetree.c/4803
  22 2975 0     Extnodes_base   3114.5805   24001.7852  force_treeallocate()/forcetree.c/4811
  22 2976 0          Nextnode    222.3007   24224.0859  force_treeallocate()/forcetree.c/4820
  22 2977 0            Father    221.9056   24445.9915  force_treeallocate()/forcetree.c/4827
  22 2978 0           Ngblist     63.4232   24509.4147  density()/density.c/690
  22 2979 0              Left    126.8463   24636.2610  density()/density.c/692
  22 2980 0             Right    126.8463   24763.1073  density()/density.c/693
  22 2981 0    DataIndexTable      7.0175   24770.1249  density()/density.c/738
  22 2982 0      DataNodeList     18.7134   24788.8383  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/z_0.000.hdf5
GetCoolingTables: Redshift 2 /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/z_0.049.hdf5

Begin to compute FoF group catalogues...  (presently allocated=24446 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=17144.2 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=17646.6 MB)
Before=93769
After=103505
NTopleaves= 90567  NTopnodes=103505 (space for 465370)
gravity work-load balance=1.00054   memory-balance=1.00055   SPH work-load balance=0
iter=0 exchange of 2112580276 particles (ret=0)
domain decomposition done. (took 24.6369 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 16.5649 MByte in top-level domain structure

Comoving linking length: 0.00901189    (presently allocated=17149.4 MB)
Tree construction.

Start linking particles (presently allocated=25205.2 MB)
links on local processor done (took 203.152 sec).
Marked=0252683671 out of the 2124916242 primaries which are linked

linking across processors (presently allocated=25528.7 MB) 
have done 0003046327 cross links (processed 0252683671, took 52.572 sec)
have done 0001344406 cross links (processed 0213598117, took 52.2697 sec)
have done 0000978349 cross links (processed 0184800598, took 31.4342 sec)
have done 0000666472 cross links (processed 0134753490, took 36.5866 sec)
have done 0000452081 cross links (processed 0092016038, took 32.6921 sec)
have done 0000301478 cross links (processed 0050427466, took 19.0067 sec)
have done 0000196837 cross links (processed 0020774970, took 11.8813 sec)
have done 0000116963 cross links (processed 0011616773, took 6.59339 sec)
have done 0000067420 cross links (processed 0006269272, took 5.45409 sec)
have done 0000043076 cross links (processed 0006095553, took 6.33367 sec)
have done 0000023242 cross links (processed 0003558452, took 6.18401 sec)
have done 0000011657 cross links (processed 0000860908, took 1.37828 sec)
have done 0000004346 cross links (processed 0000091241, took 0.257227 sec)
have done 0000001676 cross links (processed 0000030459, took 0.231678 sec)
have done 0000000692 cross links (processed 0000012179, took 0.216294 sec)
have done 0000000261 cross links (processed 0000003171, took 0.211992 sec)
have done 0000000108 cross links (processed 0000001084, took 0.209214 sec)
have done 0000000039 cross links (processed 0000000407, took 0.212548 sec)
have done 0000000021 cross links (processed 0000000170, took 0.21594 sec)
have done 0000000013 cross links (processed 0000000077, took 0.21358 sec)
have done 0000000004 cross links (processed 0000000039, took 0.210765 sec)
have done 0000000001 cross links (processed 0000000010, took 0.214466 sec)
have done 0000000000 cross links (processed 0000000003, took 0.211893 sec)
Local groups found.

group finding took = 468.661 sec
Start finding nearest dm-particle (presently allocated=25205.2 MB)
still finding nearest... (presently allocated=25472.2 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.561457 sec
compiling local group data and catalogue took = 6.32984 sec

Total number of groups with at least 32 particles: 1240356
Largest group has 161083319 particles.
Total number of particles in groups: 1335702811

group properties are now allocated.. (presently allocated=18171.7 MB)
computation of group properties took = 0.672049 sec
start global sorting of group catalogues number 29
LargestGroup = 125570.728999; SmallestGroup = 0.024945
tagging gas particles with halo masses took = 0.338717 sec
Group catalogues globally sorted. took = 5.59903 sec
starting saving of group catalogue number 29
data//groups_029_z000p000
Group catalogues number 29 saved. took = 14.9321 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 7.22719 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 2.5449 sec
Tree construction for species 1 (2124916242).
tree build for species 1 took 7.13674 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 1200042336 particles. (took 274.84 sec)
ngb iteration 2: need to repeat for 0622623261 particles. (took 120.953 sec)
ngb iteration 3: need to repeat for 0470395673 particles. (took 54.0402 sec)
ngb iteration 4: need to repeat for 0401716412 particles. (took 34.1445 sec)
ngb iteration 5: need to repeat for 0349202583 particles. (took 26.277 sec)
ngb iteration 6: need to repeat for 0284765467 particles. (took 22.1191 sec)
ngb iteration 7: need to repeat for 0208909379 particles. (took 17.9157 sec)
ngb iteration 8: need to repeat for 0138638069 particles. (took 12.5112 sec)
ngb iteration 9: need to repeat for 0085482638 particles. (took 8.3655 sec)
ngb iteration 10: need to repeat for 0050285322 particles. (took 5.53056 sec)
ngb iteration 11: need to repeat for 0028816804 particles. (took 3.58802 sec)
ngb iteration 12: need to repeat for 0016325620 particles. (took 2.36329 sec)
ngb iteration 13: need to repeat for 0009230849 particles. (took 1.60685 sec)
ngb iteration 14: need to repeat for 0004853878 particles. (took 1.15079 sec)
ngb iteration 15: need to repeat for 0002097671 particles. (took 0.738987 sec)
ngb iteration 16: need to repeat for 0001097813 particles. (took 0.447646 sec)
ngb iteration 17: need to repeat for 0000611957 particles. (took 0.324137 sec)
ngb iteration 18: need to repeat for 0000349563 particles. (took 0.272259 sec)
ngb iteration 19: need to repeat for 0000198408 particles. (took 0.251471 sec)
ngb iteration 20: need to repeat for 0000110200 particles. (took 0.236149 sec)
ngb iteration 21: need to repeat for 0000059271 particles. (took 0.226765 sec)
ngb iteration 22: need to repeat for 0000030634 particles. (took 0.225565 sec)
ngb iteration 23: need to repeat for 0000015016 particles. (took 0.223324 sec)
ngb iteration 24: need to repeat for 0000007012 particles. (took 0.221211 sec)
ngb iteration 25: need to repeat for 0000003177 particles. (took 0.21711 sec)
ngb iteration 26: need to repeat for 0000001350 particles. (took 0.217221 sec)
ngb iteration 27: need to repeat for 0000000531 particles. (took 0.21564 sec)
ngb iteration 28: need to repeat for 0000000185 particles. (took 0.217989 sec)
ngb iteration 29: need to repeat for 0000000063 particles. (took 0.215996 sec)
ngb iteration 30: need to repeat for 0000000022 particles. (took 0.215117 sec)
ngb iteration 31: need to repeat for 0000000003 particles. (took 0.215082 sec)
final operations ... 
density and smoothing length for species 1 took 593.978 sec
Tree construction.
tree build took 7.10469 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 2.44078 sec
Tree construction.
tree build took 7.42387 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 2.43813 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.538511 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 13.8435 sec
Tree construction for species 1 (2124916242).
tree build for species 1 took 7.14652 sec
density() of species 1 took 0 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.086854 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 13.56 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.068639 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 13.7148 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 6.91325 sec
saving densities took 10.1396 sec

Number of FOF halos treated with collective SubFind code = 5
(the adopted size-limit for the collective algorithm was 40719852 particles.)
the other 1240351 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 279552 - 696168102 

subfind_exchange()() took 5.90917 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=36167.5 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=36670 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 36670 Mbyte (on task=0), Smallest = 19161.3 Mbyte, Average = 19812.1 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     55.4764      57.4321  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    221.9056     279.3377  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    221.9056     501.2433  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    221.9056     723.1489  allocate_memory()/allocate.c/61
   0 2969 0                 P  16421.0134   17144.1623  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      5.1329   17149.3577  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList    379.6020   17528.9597  fof_fof()/fof.c/249
   0 2974 0         FOF_GList    632.6701   18161.6298  fof_fof()/fof.c/337
   0 2975 0             Group     10.1114   18171.7412  fof_fof()/fof.c/380
   0 2976 0          SubGroup  17995.7674   36167.5086  subfind()/subfind.c/376
   0 2979 0          TopNodes     23.0782   36190.6493  domain_allocate()/domain.c/570
   0 2980 0        domain_key    443.8112   36634.4605  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      1.7752   36636.2416  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      1.7752   36638.0168  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      1.7752   36639.7921  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      1.7752   36641.5673  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      1.7752   36643.3445  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      1.7752   36645.1217  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     24.8534   36669.9751  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=65089
After=84289
NTopleaves= 73753  NTopnodes=84289 (space for 465370)
gravity work-load balance=1.0007   memory-balance=1.00069   SPH work-load balance=0
iter=0 exchange of 0159861761 particles (ret=0)
domain decomposition done. (took 5.50184 sec)
Freed 17.4445 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 43465 Mbyte (on task=0), Smallest = 25956.3 Mbyte, Average = 26607.1 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     55.4764      57.4321  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    221.9056     279.3377  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    221.9056     501.2433  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    221.9056     723.1489  allocate_memory()/allocate.c/61
   0 2969 0                 P  16421.0134   17144.1623  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      5.1329   17149.3577  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList    379.6020   17528.9597  fof_fof()/fof.c/249
   0 2974 0         FOF_GList    632.6701   18161.6298  fof_fof()/fof.c/337
   0 2975 0             Group     10.1114   18171.7412  fof_fof()/fof.c/380
   0 2976 0          SubGroup  17995.7674   36167.5086  subfind()/subfind.c/376
   0 2979 0          TopNodes      4.1800   36171.7511  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.2813   36172.0324  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base   3735.7308   39907.7632  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base   3113.1090   43020.8722  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode    222.2271   43243.0993  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father    221.9056   43465.0049  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 8.24237 sec  (presently allocated=43465 MB)
force_treebuild() took 16.5267 sec (presently allocated=43465 MB)
Start find_linkngb (1253450 particles on task=0)
find linkngb iteration 1: need to repeat for 0076605759 particles. (took 28.1402 sec)
find linkngb iteration 2: need to repeat for 0062804446 particles. (took 9.50307 sec)
find linkngb iteration 3: need to repeat for 0059611557 particles. (took 5.7218 sec)
find linkngb iteration 4: need to repeat for 0050918767 particles. (took 6.55986 sec)
find linkngb iteration 5: need to repeat for 0041870257 particles. (took 5.50207 sec)
find linkngb iteration 6: need to repeat for 0030154345 particles. (took 4.58512 sec)
find linkngb iteration 7: need to repeat for 0018916060 particles. (took 3.37982 sec)
find linkngb iteration 8: need to repeat for 0010746307 particles. (took 2.20378 sec)
find linkngb iteration 9: need to repeat for 0005754693 particles. (took 1.29717 sec)
find linkngb iteration 10: need to repeat for 0002981696 particles. (took 0.739046 sec)
find linkngb iteration 11: need to repeat for 0001516639 particles. (took 0.413165 sec)
find linkngb iteration 12: need to repeat for 0000312664 particles. (took 0.222697 sec)
find linkngb iteration 13: need to repeat for 0000007621 particles. (took 0.0531819 sec)
find linkngb iteration 14: need to repeat for 0000002715 particles. (took 0.00431299 sec)
find linkngb iteration 15: need to repeat for 0000001063 particles. (took 0.00304794 sec)
find linkngb iteration 16: need to repeat for 0000000416 particles. (took 0.00254798 sec)
find linkngb iteration 17: need to repeat for 0000000139 particles. (took 0.00231695 sec)
find linkngb iteration 18: need to repeat for 0000000038 particles. (took 0.00233817 sec)
find linkngb iteration 19: need to repeat for 0000000009 particles. (took 0.00216603 sec)
find_linkngb() took 68.3498 sec
Start finding nearest two (1253450 particles on task=0)
find_nearesttwo() took 15.8619 sec (presently allocated=43560.6 MB)
parallel sort of densities done. took 0.66084 sec
building distributed linked list. (presently allocated 43548.2 MB)
identification of primary candidates took 2386.32 sec
adding background as candidate took 0.196988 sec
establishing of rank order took 555.122 sec  (p=161083319, grouplen=161083319) presently allocated 43548.2 MB

total number of subhalo candidates=816398

number of subhalo candidates that can be done independently=691627.
(Largest size is 6423, finding them took 0.363852 sec)
particles are marked (took 470.885)
independent subhalos are assembled on individual CPUs for unbinding (0.752947 sec, (presently allocated=43548.2 MB)
unbinding of independent ones took 0.978699 sec
particles have returned to their original processor (1.00413 sec, presently allocated 43548.2 MB)

number of subhalo candidates that can be done independently=110572.
(Largest size is 57969, finding them took 8.71503 sec)
particles are marked (took 234.239)
independent subhalos are assembled on individual CPUs for unbinding (0.730894 sec, (presently allocated=43548.2 MB)
unbinding of independent ones took 4.82379 sec
particles have returned to their original processor (1.04222 sec, presently allocated 43548.2 MB)

number of subhalo candidates that can be done independently=12913.
(Largest size is 438534, finding them took 8.89161 sec)
particles are marked (took 168.197)
independent subhalos are assembled on individual CPUs for unbinding (0.727869 sec, (presently allocated=43548.2 MB)
unbinding of independent ones took 16.1345 sec
particles have returned to their original processor (1.01544 sec, presently allocated 43548.2 MB)

number of subhalo candidates that can be done independently=1137.
(Largest size is 774226, finding them took 8.6125 sec)
particles are marked (took 159.44)
independent subhalos are assembled on individual CPUs for unbinding (0.737339 sec, (presently allocated=43548.2 MB)
unbinding of independent ones took 42.1049 sec
particles have returned to their original processor (1.01623 sec, presently allocated 43548.2 MB)

number of subhalo candidates that can be done independently=128.
(Largest size is 7546056, finding them took 10.2926 sec)
particles are marked (took 154.683)
independent subhalos are assembled on individual CPUs for unbinding (0.760394 sec, (presently allocated=43548.2 MB)
unbinding of independent ones took 80.1621 sec
particles have returned to their original processor (1.00997 sec, presently allocated 43548.2 MB)

number of subhalo candidates that can be done independently=12.
(Largest size is 7740977, finding them took 5.48319 sec)
particles are marked (took 75.9847)
independent subhalos are assembled on individual CPUs for unbinding (0.697894 sec, (presently allocated=43548.2 MB)
unbinding of independent ones took 5.65125 sec
particles have returned to their original processor (0.956137 sec, presently allocated 43548.2 MB)

number of subhalo candidates that can be done independently=4.
(Largest size is 7740977, finding them took 4.36881 sec)
particles are marked (took 71.9568)
independent subhalos are assembled on individual CPUs for unbinding (0.744947 sec, (presently allocated=43548.2 MB)
unbinding of independent ones took 18.6675 sec
particles have returned to their original processor (0.969888 sec, presently allocated 43548.2 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 7740977, finding them took 4.36706 sec)
too few, I do the rest of 5 collectively

collective unbinding of nr=0 (5) of length=6723969 ... maximum alloacted 43553 MB
took 59.2702 sec
collective unbinding of nr=1 (5) of length=7546056 ... maximum alloacted 43553 MB
took 86.5642 sec
collective unbinding of nr=2 (5) of length=7740977 ... maximum alloacted 43553 MB
took 75.1637 sec
collective unbinding of nr=3 (5) of length=3414477 ... maximum alloacted 43553 MB
took 41.8767 sec
collective unbinding of nr=4 (5) of length=161083319 ... maximum alloacted 43553 MB
took 1472.27 sec

the collective unbinding of remaining halos took 1787.19 sec

found 52667 bound substructures in FoF group of length 161083319
determination of parent subhalo took 0.446514 sec (presently allocated 43553 MB)
determining substructure properties took 2331.44 sec (presently allocated 43553 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=36167.5 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=36670 MB)
Before=69857
After=85617
NTopleaves= 74915  NTopnodes=85617 (space for 465370)
gravity work-load balance=1.00063   memory-balance=1.00063   SPH work-load balance=0
iter=0 exchange of 0094025699 particles (ret=0)
domain decomposition done. (took 4.44256 sec)
Freed 17.3837 MByte in top-level domain structure
coldomain_Decomposition() took 7.10408 sec  (presently allocated=43465.3 MB)
force_treebuild() took 16.4992 sec (presently allocated=43465.3 MB)
Start find_linkngb (740526 particles on task=0)
find linkngb iteration 1: need to repeat for 0052173667 particles. (took 14.6533 sec)
find linkngb iteration 2: need to repeat for 0043126752 particles. (took 5.49083 sec)
find linkngb iteration 3: need to repeat for 0040948183 particles. (took 3.46164 sec)
find linkngb iteration 4: need to repeat for 0035040401 particles. (took 3.81034 sec)
find linkngb iteration 5: need to repeat for 0028836741 particles. (took 3.20089 sec)
find linkngb iteration 6: need to repeat for 0020770816 particles. (took 2.6983 sec)
find linkngb iteration 7: need to repeat for 0013027806 particles. (took 2.05535 sec)
find linkngb iteration 8: need to repeat for 0007403945 particles. (took 1.34972 sec)
find linkngb iteration 9: need to repeat for 0003964522 particles. (took 0.824909 sec)
find linkngb iteration 10: need to repeat for 0002055489 particles. (took 0.477758 sec)
find linkngb iteration 11: need to repeat for 0001044879 particles. (took 0.258783 sec)
find linkngb iteration 12: need to repeat for 0000215322 particles. (took 0.181376 sec)
find linkngb iteration 13: need to repeat for 0000005450 particles. (took 0.0367949 sec)
find linkngb iteration 14: need to repeat for 0000001934 particles. (took 0.011802 sec)
find linkngb iteration 15: need to repeat for 0000000781 particles. (took 0.0052619 sec)
find linkngb iteration 16: need to repeat for 0000000280 particles. (took 0.00363803 sec)
find linkngb iteration 17: need to repeat for 0000000112 particles. (took 0.00284004 sec)
find linkngb iteration 18: need to repeat for 0000000025 particles. (took 0.00249386 sec)
find linkngb iteration 19: need to repeat for 0000000004 particles. (took 0.00215006 sec)
find_linkngb() took 38.533 sec
Start finding nearest two (740526 particles on task=0)
find_nearesttwo() took 8.17553 sec (presently allocated=43521.8 MB)
parallel sort of densities done. took 0.363594 sec
building distributed linked list. (presently allocated 43514.5 MB)
identification of primary candidates took 1538.57 sec
adding background as candidate took 0.130898 sec
establishing of rank order took 359.66 sec  (p=94757023, grouplen=94757023) presently allocated 43514.5 MB

total number of subhalo candidates=467296

number of subhalo candidates that can be done independently=398781.
(Largest size is 6067, finding them took 0.181131 sec)
particles are marked (took 379.607)
independent subhalos are assembled on individual CPUs for unbinding (0.723418 sec, (presently allocated=43514.5 MB)
unbinding of independent ones took 0.523597 sec
particles have returned to their original processor (0.993674 sec, presently allocated 43514.5 MB)

number of subhalo candidates that can be done independently=60865.
(Largest size is 70163, finding them took 8.32683 sec)
particles are marked (took 190.816)
independent subhalos are assembled on individual CPUs for unbinding (0.730127 sec, (presently allocated=43514.5 MB)
unbinding of independent ones took 2.93481 sec
particles have returned to their original processor (0.982061 sec, presently allocated 43514.5 MB)

number of subhalo candidates that can be done independently=6951.
(Largest size is 340441, finding them took 8.50486 sec)
particles are marked (took 143.5)
independent subhalos are assembled on individual CPUs for unbinding (0.713094 sec, (presently allocated=43514.5 MB)
unbinding of independent ones took 12.1369 sec
particles have returned to their original processor (0.983184 sec, presently allocated 43514.5 MB)

number of subhalo candidates that can be done independently=626.
(Largest size is 745944, finding them took 7.73389 sec)
particles are marked (took 129.871)
independent subhalos are assembled on individual CPUs for unbinding (0.727121 sec, (presently allocated=43514.5 MB)
unbinding of independent ones took 38.1477 sec
particles have returned to their original processor (0.992749 sec, presently allocated 43514.5 MB)

number of subhalo candidates that can be done independently=64.
(Largest size is 4835767, finding them took 9.81554 sec)
particles are marked (took 112.996)
independent subhalos are assembled on individual CPUs for unbinding (0.73114 sec, (presently allocated=43514.5 MB)
unbinding of independent ones took 62.467 sec
particles have returned to their original processor (0.98938 sec, presently allocated 43514.5 MB)

number of subhalo candidates that can be done independently=7.
(Largest size is 4835767, finding them took 4.66506 sec)
particles are marked (took 47.0566)
independent subhalos are assembled on individual CPUs for unbinding (0.694727 sec, (presently allocated=43514.5 MB)
unbinding of independent ones took 41.6249 sec
particles have returned to their original processor (0.968834 sec, presently allocated 43514.5 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 4835767, finding them took 4.23215 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=4835767 ... maximum alloacted 43517.3 MB
took 62.172 sec
collective unbinding of nr=1 (2) of length=94757023 ... maximum alloacted 43517.3 MB
took 886.057 sec

the collective unbinding of remaining halos took 987.897 sec

found 32438 bound substructures in FoF group of length 94757023
determination of parent subhalo took 0.15315 sec (presently allocated 43517.3 MB)
determining substructure properties took 1412.41 sec (presently allocated 43517.3 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=36167.5 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=36670 MB)
Before=67041
After=82513
NTopleaves= 72199  NTopnodes=82513 (space for 465370)
gravity work-load balance=1.00058   memory-balance=1.00058   SPH work-load balance=0
iter=0 exchange of 0077464884 particles (ret=0)
domain decomposition done. (took 5.17676 sec)
Freed 17.5258 MByte in top-level domain structure
coldomain_Decomposition() took 7.83351 sec  (presently allocated=43464.6 MB)
force_treebuild() took 15.5986 sec (presently allocated=43464.6 MB)
Start find_linkngb (607740 particles on task=0)
find linkngb iteration 1: need to repeat for 0045464642 particles. (took 11.9721 sec)
find linkngb iteration 2: need to repeat for 0037718425 particles. (took 4.87257 sec)
find linkngb iteration 3: need to repeat for 0035845485 particles. (took 2.95551 sec)
find linkngb iteration 4: need to repeat for 0030681015 particles. (took 3.34767 sec)
find linkngb iteration 5: need to repeat for 0025247060 particles. (took 2.8156 sec)
find linkngb iteration 6: need to repeat for 0018174559 particles. (took 2.37418 sec)
find linkngb iteration 7: need to repeat for 0011394702 particles. (took 1.75477 sec)
find linkngb iteration 8: need to repeat for 0006469558 particles. (took 1.15126 sec)
find linkngb iteration 9: need to repeat for 0003462824 particles. (took 0.681197 sec)
find linkngb iteration 10: need to repeat for 0001793263 particles. (took 0.38924 sec)
find linkngb iteration 11: need to repeat for 0000912307 particles. (took 0.215553 sec)
find linkngb iteration 12: need to repeat for 0000188085 particles. (took 0.119265 sec)
find linkngb iteration 13: need to repeat for 0000003614 particles. (took 0.0292549 sec)
find linkngb iteration 14: need to repeat for 0000001251 particles. (took 0.0018909 sec)
find linkngb iteration 15: need to repeat for 0000000509 particles. (took 0.00144506 sec)
find linkngb iteration 16: need to repeat for 0000000194 particles. (took 0.00124502 sec)
find linkngb iteration 17: need to repeat for 0000000061 particles. (took 0.00135708 sec)
find linkngb iteration 18: need to repeat for 0000000017 particles. (took 0.00111508 sec)
find linkngb iteration 19: need to repeat for 0000000005 particles. (took 0.00118804 sec)
find_linkngb() took 32.6903 sec
Start finding nearest two (607740 particles on task=0)
find_nearesttwo() took 6.86788 sec (presently allocated=43511 MB)
parallel sort of densities done. took 0.307906 sec
building distributed linked list. (presently allocated 43504.9 MB)
identification of primary candidates took 1161.21 sec
adding background as candidate took 0.105514 sec
establishing of rank order took 271.686 sec  (p=78082883, grouplen=78082883) presently allocated 43504.9 MB

total number of subhalo candidates=404563

number of subhalo candidates that can be done independently=343551.
(Largest size is 4218, finding them took 0.147169 sec)
particles are marked (took 287.637)
independent subhalos are assembled on individual CPUs for unbinding (0.716317 sec, (presently allocated=43504.9 MB)
unbinding of independent ones took 0.399352 sec
particles have returned to their original processor (0.966554 sec, presently allocated 43504.9 MB)

number of subhalo candidates that can be done independently=54245.
(Largest size is 43918, finding them took 8.26363 sec)
particles are marked (took 126.285)
independent subhalos are assembled on individual CPUs for unbinding (0.712164 sec, (presently allocated=43504.9 MB)
unbinding of independent ones took 1.91459 sec
particles have returned to their original processor (0.963446 sec, presently allocated 43504.9 MB)

number of subhalo candidates that can be done independently=6192.
(Largest size is 214623, finding them took 8.40066 sec)
particles are marked (took 78.1347)
independent subhalos are assembled on individual CPUs for unbinding (0.705179 sec, (presently allocated=43504.9 MB)
unbinding of independent ones took 9.60681 sec
particles have returned to their original processor (0.955829 sec, presently allocated 43504.9 MB)

number of subhalo candidates that can be done independently=526.
(Largest size is 849366, finding them took 10.3987 sec)
particles are marked (took 73.599)
independent subhalos are assembled on individual CPUs for unbinding (0.714605 sec, (presently allocated=43504.9 MB)
unbinding of independent ones took 491.638 sec
particles have returned to their original processor (0.991908 sec, presently allocated 43504.9 MB)

number of subhalo candidates that can be done independently=46.
(Largest size is 1488106, finding them took 9.9488 sec)
particles are marked (took 71.536)
independent subhalos are assembled on individual CPUs for unbinding (0.719672 sec, (presently allocated=43504.9 MB)
unbinding of independent ones took 108.581 sec
particles have returned to their original processor (0.995433 sec, presently allocated 43504.9 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 9709945, finding them took 9.94976 sec)
particles are marked (took 30.3575)
independent subhalos are assembled on individual CPUs for unbinding (0.681617 sec, (presently allocated=43504.9 MB)
unbinding of independent ones took 10.2464 sec
particles have returned to their original processor (0.948067 sec, presently allocated 43504.9 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 9709945, finding them took 4.09626 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=9709945 ... maximum alloacted 43507.3 MB
took 90.6288 sec
collective unbinding of nr=1 (2) of length=78082883 ... maximum alloacted 43507.3 MB
took 999.493 sec

the collective unbinding of remaining halos took 1109.9 sec

found 19667 bound substructures in FoF group of length 78082883
determination of parent subhalo took 0.142371 sec (presently allocated 43507.3 MB)
determining substructure properties took 1002.65 sec (presently allocated 43507.3 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=36167.5 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=36670 MB)
Before=72993
After=84545
NTopleaves= 73977  NTopnodes=84545 (space for 465370)
gravity work-load balance=1.00053   memory-balance=1.00053   SPH work-load balance=0
iter=0 exchange of 0054597107 particles (ret=0)
domain decomposition done. (took 4.12835 sec)
Freed 17.4328 MByte in top-level domain structure
coldomain_Decomposition() took 6.79034 sec  (presently allocated=43465.1 MB)
force_treebuild() took 15.48 sec (presently allocated=43465.1 MB)
Start find_linkngb (429959 particles on task=0)
find linkngb iteration 1: need to repeat for 0034934158 particles. (took 7.8962 sec)
find linkngb iteration 2: need to repeat for 0029196956 particles. (took 3.47397 sec)
find linkngb iteration 3: need to repeat for 0027749340 particles. (took 2.14595 sec)
find linkngb iteration 4: need to repeat for 0023805042 particles. (took 2.42723 sec)
find linkngb iteration 5: need to repeat for 0019612564 particles. (took 2.03761 sec)
find linkngb iteration 6: need to repeat for 0014136182 particles. (took 1.74297 sec)
find linkngb iteration 7: need to repeat for 0008869241 particles. (took 1.2553 sec)
find linkngb iteration 8: need to repeat for 0005039024 particles. (took 0.817071 sec)
find linkngb iteration 9: need to repeat for 0002698846 particles. (took 0.489831 sec)
find linkngb iteration 10: need to repeat for 0001400193 particles. (took 0.276644 sec)
find linkngb iteration 11: need to repeat for 0000711199 particles. (took 0.154651 sec)
find linkngb iteration 12: need to repeat for 0000147393 particles. (took 0.084491 sec)
find linkngb iteration 13: need to repeat for 0000003419 particles. (took 0.0206521 sec)
find linkngb iteration 14: need to repeat for 0000001197 particles. (took 0.002002 sec)
find linkngb iteration 15: need to repeat for 0000000468 particles. (took 0.00118899 sec)
find linkngb iteration 16: need to repeat for 0000000178 particles. (took 0.000957012 sec)
find linkngb iteration 17: need to repeat for 0000000061 particles. (took 0.00101995 sec)
find linkngb iteration 18: need to repeat for 0000000021 particles. (took 0.000999928 sec)
find linkngb iteration 19: need to repeat for 0000000008 particles. (took 0.000828981 sec)
find linkngb iteration 20: need to repeat for 0000000002 particles. (took 0.000818968 sec)
find_linkngb() took 22.8335 sec
Start finding nearest two (429959 particles on task=0)
find_nearesttwo() took 4.51911 sec (presently allocated=43497.9 MB)
parallel sort of densities done. took 0.215399 sec
building distributed linked list. (presently allocated 43493.6 MB)
identification of primary candidates took 810.569 sec
adding background as candidate took 0.08828 sec
establishing of rank order took 187.314 sec  (p=55027914, grouplen=55027914) presently allocated 43493.6 MB

total number of subhalo candidates=277730

number of subhalo candidates that can be done independently=235676.
(Largest size is 6053, finding them took 0.0933201 sec)
particles are marked (took 189.165)
independent subhalos are assembled on individual CPUs for unbinding (0.812396 sec, (presently allocated=43493.6 MB)
unbinding of independent ones took 0.359099 sec
particles have returned to their original processor (0.987382 sec, presently allocated 43493.6 MB)

number of subhalo candidates that can be done independently=37675.
(Largest size is 44947, finding them took 8.09008 sec)
particles are marked (took 87.078)
independent subhalos are assembled on individual CPUs for unbinding (0.707807 sec, (presently allocated=43493.6 MB)
unbinding of independent ones took 1.45424 sec
particles have returned to their original processor (1.02281 sec, presently allocated 43493.6 MB)

number of subhalo candidates that can be done independently=4017.
(Largest size is 308200, finding them took 8.18573 sec)
particles are marked (took 54.59)
independent subhalos are assembled on individual CPUs for unbinding (0.69799 sec, (presently allocated=43493.6 MB)
unbinding of independent ones took 10.8431 sec
particles have returned to their original processor (0.946472 sec, presently allocated 43493.6 MB)

number of subhalo candidates that can be done independently=328.
(Largest size is 378807, finding them took 7.45648 sec)
particles are marked (took 43.387)
independent subhalos are assembled on individual CPUs for unbinding (0.689133 sec, (presently allocated=43493.6 MB)
unbinding of independent ones took 13.7217 sec
particles have returned to their original processor (0.942121 sec, presently allocated 43493.6 MB)

number of subhalo candidates that can be done independently=30.
(Largest size is 1292052, finding them took 7.47444 sec)
particles are marked (took 39.9004)
independent subhalos are assembled on individual CPUs for unbinding (0.705048 sec, (presently allocated=43493.6 MB)
unbinding of independent ones took 65.7688 sec
particles have returned to their original processor (0.958209 sec, presently allocated 43493.6 MB)

number of subhalo candidates that can be done independently=3.
(Largest size is 531066, finding them took 4.06895 sec)
particles are marked (took 28.4331)
independent subhalos are assembled on individual CPUs for unbinding (0.684198 sec, (presently allocated=43493.6 MB)
unbinding of independent ones took 12.5273 sec
particles have returned to their original processor (0.939811 sec, presently allocated 43493.6 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 55027914, finding them took 4.05004 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=55027914 ... maximum alloacted 43495.2 MB
took 483.698 sec

the collective unbinding of remaining halos took 495.431 sec

found 17425 bound substructures in FoF group of length 55027914
determination of parent subhalo took 0.077924 sec (presently allocated 43495.2 MB)
determining substructure properties took 725.778 sec (presently allocated 43495.2 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=36167.5 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=36670 MB)
Before=72481
After=84329
NTopleaves= 73788  NTopnodes=84329 (space for 465370)
gravity work-load balance=1.00038   memory-balance=1.00038   SPH work-load balance=0
iter=0 exchange of 0043604117 particles (ret=0)
domain decomposition done. (took 4.03988 sec)
Freed 17.4427 MByte in top-level domain structure
coldomain_Decomposition() took 6.70614 sec  (presently allocated=43465 MB)
force_treebuild() took 15.1984 sec (presently allocated=43465 MB)
Start find_linkngb (344121 particles on task=0)
find linkngb iteration 1: need to repeat for 0029503797 particles. (took 5.90134 sec)
find linkngb iteration 2: need to repeat for 0024780119 particles. (took 2.75336 sec)
find linkngb iteration 3: need to repeat for 0023565507 particles. (took 1.712 sec)
find linkngb iteration 4: need to repeat for 0020223153 particles. (took 1.90795 sec)
find linkngb iteration 5: need to repeat for 0016663597 particles. (took 1.6355 sec)
find linkngb iteration 6: need to repeat for 0012009757 particles. (took 1.36471 sec)
find linkngb iteration 7: need to repeat for 0007533499 particles. (took 0.995861 sec)
find linkngb iteration 8: need to repeat for 0004277263 particles. (took 0.654679 sec)
find linkngb iteration 9: need to repeat for 0002290422 particles. (took 0.389233 sec)
find linkngb iteration 10: need to repeat for 0001186287 particles. (took 0.224053 sec)
find linkngb iteration 11: need to repeat for 0000603260 particles. (took 0.128156 sec)
find linkngb iteration 12: need to repeat for 0000124111 particles. (took 0.0682302 sec)
find linkngb iteration 13: need to repeat for 0000002472 particles. (took 0.017873 sec)
find linkngb iteration 14: need to repeat for 0000000813 particles. (took 0.00227785 sec)
find linkngb iteration 15: need to repeat for 0000000337 particles. (took 0.00174999 sec)
find linkngb iteration 16: need to repeat for 0000000119 particles. (took 0.00139403 sec)
find linkngb iteration 17: need to repeat for 0000000035 particles. (took 0.000780106 sec)
find linkngb iteration 18: need to repeat for 0000000012 particles. (took 0.000741005 sec)
find linkngb iteration 19: need to repeat for 0000000007 particles. (took 0.000755072 sec)
find linkngb iteration 20: need to repeat for 0000000003 particles. (took 0.000689983 sec)
find_linkngb() took 17.7636 sec
Start finding nearest two (344121 particles on task=0)
find_nearesttwo() took 3.4 sec (presently allocated=43491.3 MB)
parallel sort of densities done. took 0.177821 sec
building distributed linked list. (presently allocated 43487.9 MB)
identification of primary candidates took 659.323 sec
adding background as candidate took 0.0765231 sec
establishing of rank order took 155.905 sec  (p=44032863, grouplen=44032863) presently allocated 43487.9 MB

total number of subhalo candidates=219262

number of subhalo candidates that can be done independently=188108.
(Largest size is 6036, finding them took 0.0712271 sec)
particles are marked (took 153.116)
independent subhalos are assembled on individual CPUs for unbinding (0.696166 sec, (presently allocated=43487.9 MB)
unbinding of independent ones took 0.251359 sec
particles have returned to their original processor (0.960488 sec, presently allocated 43487.9 MB)

number of subhalo candidates that can be done independently=28196.
(Largest size is 39122, finding them took 7.892 sec)
particles are marked (took 60.7377)
independent subhalos are assembled on individual CPUs for unbinding (0.690721 sec, (presently allocated=43487.9 MB)
unbinding of independent ones took 1.45133 sec
particles have returned to their original processor (0.945249 sec, presently allocated 43487.9 MB)

number of subhalo candidates that can be done independently=2747.
(Largest size is 309220, finding them took 7.87773 sec)
particles are marked (took 50.0323)
independent subhalos are assembled on individual CPUs for unbinding (0.691238 sec, (presently allocated=43487.9 MB)
unbinding of independent ones took 14.9414 sec
particles have returned to their original processor (0.941226 sec, presently allocated 43487.9 MB)

number of subhalo candidates that can be done independently=187.
(Largest size is 1113650, finding them took 10.3738 sec)
particles are marked (took 37.2933)
independent subhalos are assembled on individual CPUs for unbinding (0.702536 sec, (presently allocated=43487.9 MB)
unbinding of independent ones took 62.4962 sec
particles have returned to their original processor (0.960793 sec, presently allocated 43487.9 MB)

number of subhalo candidates that can be done independently=19.
(Largest size is 543518, finding them took 9.03376 sec)
particles are marked (took 33.6031)
independent subhalos are assembled on individual CPUs for unbinding (0.696712 sec, (presently allocated=43487.9 MB)
unbinding of independent ones took 20.8787 sec
particles have returned to their original processor (0.959434 sec, presently allocated 43487.9 MB)

number of subhalo candidates that can be done independently=3.
(Largest size is 6690074, finding them took 7.89285 sec)
particles are marked (took 24.1932)
independent subhalos are assembled on individual CPUs for unbinding (0.686777 sec, (presently allocated=43487.9 MB)
unbinding of independent ones took 12.0493 sec
particles have returned to their original processor (0.936686 sec, presently allocated 43487.9 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 6690074, finding them took 4.0305 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=6690074 ... maximum alloacted 43489.2 MB
took 58.3775 sec
collective unbinding of nr=1 (2) of length=44032863 ... maximum alloacted 43489.2 MB
took 414.543 sec

the collective unbinding of remaining halos took 485.365 sec

found 11928 bound substructures in FoF group of length 44032863
determination of parent subhalo took 0.0668318 sec (presently allocated 43489.2 MB)
determining substructure properties took 245.214 sec (presently allocated 43489.2 MB)
processing of collective halos took 24795.6 sec
sort of local particles()() took 7.86557 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 6464.93 sec

Task 104: testing particles ...
unsorting of local particles()() took 7.05416 sec
Task 0: testing particles ...
Task 3: testing particles ...
Task 95: testing particles ...
Task 124: testing particles ...
Task 69: testing particles ...
Task 77: testing particles ...
Task 126: testing particles ...
Task 76: testing particles ...
Task 108: testing particles ...
Task 107: testing particles ...
Task 98: testing particles ...
Task 90: testing particles ...
Task 123: testing particles ...
Task 70: testing particles ...
Task 93: testing particles ...
Task 75: testing particles ...
Task 2: testing particles ...
Task 1: testing particles ...
Task 112: testing particles ...
Task 127: testing particles ...
Task 111: testing particles ...
Task 62: testing particles ...
Task 119: testing particles ...
Task 79: testing particles ...
Task 83: testing particles ...
Task 86: testing particles ...
Task 61: testing particles ...
Task 100: testing particles ...
Task 88: testing particles ...
Task 84: testing particles ...
Task 94: testing particles ...
Task 68: testing particles ...
Task 113: testing particles ...
Task 99: testing particles ...
Task 97: testing particles ...
Task 110: testing particles ...
Task 51: testing particles ...
Task 114: testing particles ...
Task 115: testing particles ...
Task 74: testing particles ...
Task 92: testing particles ...
Task 118: testing particles ...
Task 125: testing particles ...
Task 121: testing particles ...
Task 56: testing particles ...
Task 105: testing particles ...
Task 4: testing particles ...
Task 87: testing particles ...
Task 102: testing particles ...
Task 117: testing particles ...
Task 122: testing particles ...
Task 71: testing particles ...
Task 120: testing particles ...
Task 80: testing particles ...
Task 63: testing particles ...
Task 81: testing particles ...
Task 109: testing particles ...
Task 91: testing particles ...
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subfind_exchange() (for return to original CPU)  took 19.4761 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=36167.5 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=36670 MB)
Before=97401
After=106257
NTopleaves= 92975  NTopnodes=106257 (space for 465370)
gravity work-load balance=1.00046   memory-balance=1.00045   SPH work-load balance=0
iter=0 exchange of 2112561502 particles (ret=0)
domain decomposition done. (took 25.7319 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 16.4389 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000938489 particles. (took 0.181217 sec)
SO iteration 2: need to repeat for 0000938489 particles. (took 0.173138 sec)
SO iteration 3: need to repeat for 0000938489 particles. (took 0.171369 sec)
SO iteration 4: need to repeat for 0000938489 particles. (took 0.171103 sec)
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SO iteration 6: need to repeat for 0000938489 particles. (took 0.186752 sec)
SO iteration 7: need to repeat for 0000938489 particles. (took 0.165331 sec)
SO iteration 8: need to repeat for 0000938489 particles. (took 0.162668 sec)
SO iteration 9: need to repeat for 0000938489 particles. (took 0.172202 sec)
SO iteration 10: need to repeat for 0000938489 particles. (took 0.1708 sec)
SO iteration 11: need to repeat for 0000938489 particles. (took 0.170617 sec)
SO iteration 12: need to repeat for 0000938489 particles. (took 0.170015 sec)
SO iteration 13: need to repeat for 0000938489 particles. (took 0.178543 sec)
SO iteration 14: need to repeat for 0000938489 particles. (took 0.16783 sec)
SO iteration 15: need to repeat for 0000936965 particles. (took 0.162978 sec)
SO iteration 16: need to repeat for 0000002559 particles. (took 0.16049 sec)
SO iteration 17: need to repeat for 0000000155 particles. (took 0.00293994 sec)
SO iteration 18: need to repeat for 0000000002 particles. (took 0.000557899 sec)
SO iteration 1: need to repeat for 0000938489 particles. (took 0.166828 sec)
SO iteration 2: need to repeat for 0000938489 particles. (took 0.14414 sec)
SO iteration 3: need to repeat for 0000938489 particles. (took 0.155079 sec)
SO iteration 4: need to repeat for 0000938489 particles. (took 0.149494 sec)
SO iteration 5: need to repeat for 0000938489 particles. (took 0.154434 sec)
SO iteration 6: need to repeat for 0000938489 particles. (took 0.149116 sec)
SO iteration 7: need to repeat for 0000938489 particles. (took 0.153592 sec)
SO iteration 8: need to repeat for 0000938489 particles. (took 0.154517 sec)
SO iteration 9: need to repeat for 0000938489 particles. (took 0.153188 sec)
SO iteration 10: need to repeat for 0000938489 particles. (took 0.158619 sec)
SO iteration 11: need to repeat for 0000938489 particles. (took 0.172839 sec)
SO iteration 12: need to repeat for 0000938489 particles. (took 0.154286 sec)
SO iteration 13: need to repeat for 0000938489 particles. (took 0.1526 sec)
SO iteration 14: need to repeat for 0000938489 particles. (took 0.158368 sec)
SO iteration 15: need to repeat for 0000937967 particles. (took 0.152275 sec)
SO iteration 16: need to repeat for 0000096510 particles. (took 0.151063 sec)
SO iteration 17: need to repeat for 0000001013 particles. (took 0.0200748 sec)
SO iteration 18: need to repeat for 0000000109 particles. (took 0.00183511 sec)
SO iteration 1: need to repeat for 0000938489 particles. (took 0.171405 sec)
SO iteration 2: need to repeat for 0000938489 particles. (took 0.166001 sec)
SO iteration 3: need to repeat for 0000938489 particles. (took 0.151019 sec)
SO iteration 4: need to repeat for 0000938489 particles. (took 0.15143 sec)
SO iteration 5: need to repeat for 0000938489 particles. (took 0.140824 sec)
SO iteration 6: need to repeat for 0000938489 particles. (took 0.15889 sec)
SO iteration 7: need to repeat for 0000938489 particles. (took 0.142274 sec)
SO iteration 8: need to repeat for 0000938489 particles. (took 0.148502 sec)
SO iteration 9: need to repeat for 0000938489 particles. (took 0.158442 sec)
SO iteration 10: need to repeat for 0000938489 particles. (took 0.151947 sec)
SO iteration 11: need to repeat for 0000938489 particles. (took 0.151987 sec)
SO iteration 12: need to repeat for 0000938489 particles. (took 0.162094 sec)
SO iteration 13: need to repeat for 0000938489 particles. (took 0.167156 sec)
SO iteration 14: need to repeat for 0000938489 particles. (took 0.161498 sec)
SO iteration 15: need to repeat for 0000938413 particles. (took 0.156785 sec)
SO iteration 16: need to repeat for 0000938249 particles. (took 0.165657 sec)
SO iteration 17: need to repeat for 0000114084 particles. (took 0.178045 sec)
SO iteration 18: need to repeat for 0000001900 particles. (took 0.0392179 sec)
SO iteration 19: need to repeat for 0000000228 particles. (took 0.0104001 sec)
SO iteration 20: need to repeat for 0000000001 particles. (took 0.00391603 sec)
SO iteration 1: need to repeat for 0000938489 particles. (took 0.213985 sec)
SO iteration 2: need to repeat for 0000938489 particles. (took 0.190022 sec)
SO iteration 3: need to repeat for 0000938489 particles. (took 0.192512 sec)
SO iteration 4: need to repeat for 0000938489 particles. (took 0.204452 sec)
SO iteration 5: need to repeat for 0000938489 particles. (took 0.196186 sec)
SO iteration 6: need to repeat for 0000938489 particles. (took 0.209712 sec)
SO iteration 7: need to repeat for 0000938489 particles. (took 0.190581 sec)
SO iteration 8: need to repeat for 0000938489 particles. (took 0.188619 sec)
SO iteration 9: need to repeat for 0000938489 particles. (took 0.211536 sec)
SO iteration 10: need to repeat for 0000938489 particles. (took 0.194852 sec)
SO iteration 11: need to repeat for 0000938489 particles. (took 0.191134 sec)
SO iteration 12: need to repeat for 0000938489 particles. (took 0.198282 sec)
SO iteration 13: need to repeat for 0000938489 particles. (took 0.200308 sec)
SO iteration 14: need to repeat for 0000938489 particles. (took 0.193271 sec)
SO iteration 15: need to repeat for 0000937635 particles. (took 0.197452 sec)
SO iteration 16: need to repeat for 0000019618 particles. (took 0.20725 sec)
SO iteration 17: need to repeat for 0000000400 particles. (took 0.0179579 sec)
SO iteration 18: need to repeat for 0000000020 particles. (took 0.00272894 sec)
SO iteration 1: need to repeat for 0000938489 particles. (took 0.191899 sec)
SO iteration 2: need to repeat for 0000938489 particles. (took 0.180308 sec)
SO iteration 3: need to repeat for 0000938489 particles. (took 0.177719 sec)
SO iteration 4: need to repeat for 0000938489 particles. (took 0.188858 sec)
SO iteration 5: need to repeat for 0000938489 particles. (took 0.187847 sec)
SO iteration 6: need to repeat for 0000938489 particles. (took 0.202209 sec)
SO iteration 7: need to repeat for 0000938489 particles. (took 0.210876 sec)
SO iteration 8: need to repeat for 0000938489 particles. (took 0.205659 sec)
SO iteration 9: need to repeat for 0000938489 particles. (took 0.193117 sec)
SO iteration 10: need to repeat for 0000938489 particles. (took 0.205975 sec)
SO iteration 11: need to repeat for 0000938489 particles. (took 0.189569 sec)
SO iteration 12: need to repeat for 0000938489 particles. (took 0.178143 sec)
SO iteration 13: need to repeat for 0000938489 particles. (took 0.208847 sec)
SO iteration 14: need to repeat for 0000938489 particles. (took 0.20259 sec)
SO iteration 15: need to repeat for 0000938121 particles. (took 0.20001 sec)
SO iteration 16: need to repeat for 0000313752 particles. (took 0.204526 sec)
SO iteration 17: need to repeat for 0000002013 particles. (took 0.079354 sec)
SO iteration 18: need to repeat for 0000000237 particles. (took 0.0101068 sec)
SO iteration 19: need to repeat for 0000000002 particles. (took 0.00509906 sec)
SO iteration 1: need to repeat for 0000938489 particles. (took 0.232206 sec)
SO iteration 2: need to repeat for 0000938489 particles. (took 0.217551 sec)
SO iteration 3: need to repeat for 0000938489 particles. (took 0.2023 sec)
SO iteration 4: need to repeat for 0000938489 particles. (took 0.187661 sec)
SO iteration 5: need to repeat for 0000938489 particles. (took 0.201161 sec)
SO iteration 6: need to repeat for 0000938489 particles. (took 0.19753 sec)
SO iteration 7: need to repeat for 0000938489 particles. (took 0.192609 sec)
SO iteration 8: need to repeat for 0000938489 particles. (took 0.20419 sec)
SO iteration 9: need to repeat for 0000938489 particles. (took 0.205399 sec)
SO iteration 10: need to repeat for 0000938489 particles. (took 0.186156 sec)
SO iteration 11: need to repeat for 0000938489 particles. (took 0.191095 sec)
SO iteration 12: need to repeat for 0000938489 particles. (took 0.194592 sec)
SO iteration 13: need to repeat for 0000938489 particles. (took 0.191095 sec)
SO iteration 14: need to repeat for 0000938489 particles. (took 0.200748 sec)
SO iteration 15: need to repeat for 0000938360 particles. (took 0.190402 sec)
SO iteration 16: need to repeat for 0000938121 particles. (took 0.217831 sec)
SO iteration 17: need to repeat for 0000029521 particles. (took 0.185056 sec)
SO iteration 18: need to repeat for 0000000916 particles. (took 0.0306711 sec)
SO iteration 19: need to repeat for 0000000078 particles. (took 0.00565982 sec)
SO iteration 1: need to repeat for 0000938489 particles. (took 0.20783 sec)
SO iteration 2: need to repeat for 0000938489 particles. (took 0.192275 sec)
SO iteration 3: need to repeat for 0000938489 particles. (took 0.149889 sec)
SO iteration 4: need to repeat for 0000938489 particles. (took 0.121011 sec)
SO iteration 5: need to repeat for 0000938489 particles. (took 0.134888 sec)
SO iteration 6: need to repeat for 0000938489 particles. (took 0.13304 sec)
SO iteration 7: need to repeat for 0000938489 particles. (took 0.131262 sec)
SO iteration 8: need to repeat for 0000938489 particles. (took 0.1302 sec)
SO iteration 9: need to repeat for 0000938489 particles. (took 0.143817 sec)
SO iteration 10: need to repeat for 0000938489 particles. (took 0.13635 sec)
SO iteration 11: need to repeat for 0000938489 particles. (took 0.136443 sec)
SO iteration 12: need to repeat for 0000938489 particles. (took 0.136834 sec)
SO iteration 13: need to repeat for 0000938489 particles. (took 0.141042 sec)
SO iteration 14: need to repeat for 0000938489 particles. (took 0.131908 sec)
SO iteration 15: need to repeat for 0000938476 particles. (took 0.136434 sec)
SO iteration 16: need to repeat for 0000938446 particles. (took 0.141948 sec)
SO iteration 17: need to repeat for 0000938381 particles. (took 0.134234 sec)
SO iteration 18: need to repeat for 0000065493 particles. (took 0.136375 sec)
SO iteration 19: need to repeat for 0000001298 particles. (took 0.0185769 sec)
SO iteration 20: need to repeat for 0000000105 particles. (took 0.00379395 sec)
SO iteration 21: need to repeat for 0000000001 particles. (took 0.00234413 sec)
determining spherical overdensity masses took 20.4693 sec
finding spherical overdensity particles took 1.90166 sec
determining contamination of halos took 1.03335 sec
Global sort of Groups took 0.852181 sec
Global sort of SubGroups took 1.00731 sec
Global sort of IDs took 5.18075 sec
Writing block 0 (GLEN), n=9691, ptype=0, dtype=0, ndim=1, bpb=4 bytes=38764d
Writing block 1 (GOFF), n=9691, ptype=0, dtype=0, ndim=1, bpb=4 bytes=38764d
Writing block 2 (MTOT), n=9691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=38764d
Writing block 3 (GPOS), n=9691, ptype=0, dtype=1, ndim=3, bpb=4 bytes=116292d
Writing block 4 (MMEA), n=9691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=38764d
Writing block 5 (RMEA), n=9691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=38764d
Writing block 6 (MCRI), n=9691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=38764d
Writing block 7 (RCRI), n=9691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=38764d
Writing block 8 (MTOP), n=9691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=38764d
Writing block 9 (RTOP), n=9691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=38764d
Writing block 17 (NCON), n=9691, ptype=0, dtype=0, ndim=1, bpb=4 bytes=38764d
Writing block 18 (MCON), n=9691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=38764d
Writing block 22 (NSUB), n=9691, ptype=0, dtype=0, ndim=1, bpb=4 bytes=38764d
Writing block 23 (FSUB), n=9691, ptype=0, dtype=0, ndim=1, bpb=4 bytes=38764d
Writing block 24 (SLEN), n=61711, ptype=1, dtype=0, ndim=1, bpb=4 bytes=246844d
Writing block 25 (SOFF), n=61711, ptype=1, dtype=0, ndim=1, bpb=4 bytes=246844d
Writing block 27 (MSUB), n=61711, ptype=1, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 28 (SPOS), n=61711, ptype=1, dtype=1, ndim=3, bpb=4 bytes=740532d
Writing block 29 (SVEL), n=61711, ptype=1, dtype=1, ndim=3, bpb=4 bytes=740532d
Writing block 30 (SCM ), n=61711, ptype=1, dtype=1, ndim=3, bpb=4 bytes=740532d
Writing block 33 (VMAX), n=61711, ptype=1, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 34 (RMAX), n=61711, ptype=1, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 35 (RHMS), n=61711, ptype=1, dtype=1, ndim=6, bpb=4 bytes=1481064d
Writing block 36 (MTRH), n=61711, ptype=1, dtype=1, ndim=6, bpb=4 bytes=1481064d
Writing block 37 (MBID), n=61711, ptype=1, dtype=2, ndim=1, bpb=8 bytes=493688d
Writing block 38 (GRNR), n=61711, ptype=1, dtype=0, ndim=1, bpb=4 bytes=246844d
Writing block 39 (SUBN), n=61711, ptype=1, dtype=0, ndim=1, bpb=4 bytes=246844d
Writing block 40 (SMST), n=61711, ptype=1, dtype=1, ndim=6, bpb=4 bytes=1481064d
Writing block 53 (PID ), n=10321531, ptype=2, dtype=2, ndim=1, bpb=8 bytes=82572248d
Writing block 54 (SLEN), n=61711, ptype=1, dtype=0, ndim=6, bpb=4 bytes=1481064d
Writing block 55 (STEN), n=61711, ptype=1, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 56 (SKEN), n=61711, ptype=1, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 57 (SUEN), n=61711, ptype=1, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 58 (SUIT), n=61711, ptype=1, dtype=1, ndim=9, bpb=4 bytes=2221596d
Writing block 59 (BHMA), n=61711, ptype=1, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 60 (BHMD), n=61711, ptype=1, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 61 (SVD ), n=61711, ptype=1, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 62 (SVDH), n=61711, ptype=1, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 63 (HMPR), n=61711, ptype=1, dtype=1, ndim=6, bpb=4 bytes=1481064d
Writing block 64 (SSFR), n=61711, ptype=1, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 65 (SSA ), n=61711, ptype=1, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 66 (SSBZ), n=61711, ptype=1, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 67 (SSIM), n=61711, ptype=1, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 68 (SSPI), n=61711, ptype=4, dtype=1, ndim=3, bpb=4 bytes=740532d
Writing block 69 (GSPI), n=61711, ptype=1, dtype=1, ndim=3, bpb=4 bytes=740532d
Writing block 70 (FSPI), n=61711, ptype=5, dtype=1, ndim=3, bpb=4 bytes=740532d
Writing block 71 (SFM ), n=61711, ptype=5, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 72 (SFMT), n=61711, ptype=5, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 73 (SFME), n=61711, ptype=5, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 74 (SFAE), n=61711, ptype=5, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 75 (SFKE), n=61711, ptype=5, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 76 (SFTE), n=61711, ptype=5, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 77 (SMWP), n=61711, ptype=5, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 78 (SMM ), n=61711, ptype=5, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 79 (SMMS), n=61711, ptype=5, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 80 (SFZ ), n=61711, ptype=5, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 81 (SFZS), n=61711, ptype=5, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 82 (SSIA), n=61711, ptype=5, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 83 (SIAS), n=61711, ptype=5, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 84 (SMET), n=61711, ptype=5, dtype=1, ndim=9, bpb=4 bytes=2221596d
Writing block 85 (SMTS), n=61711, ptype=5, dtype=1, ndim=9, bpb=4 bytes=2221596d
Writing block 86 (MF1 ), n=61711, ptype=5, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 87 (MeF1), n=61711, ptype=5, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 88 (MF  ), n=61711, ptype=5, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 89 (MeF2), n=61711, ptype=5, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 90 (MFA ), n=61711, ptype=5, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 91 (MeFA), n=61711, ptype=5, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 92 (NSPI), n=61711, ptype=6, dtype=1, ndim=3, bpb=4 bytes=740532d
Writing block 93 (NFM ), n=61711, ptype=6, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 94 (NFMT), n=61711, ptype=6, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 95 (NFME), n=61711, ptype=6, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 96 (NFAE), n=61711, ptype=6, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 97 (NFKE), n=61711, ptype=6, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 98 (NFTE), n=61711, ptype=6, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 99 (SMWP), n=61711, ptype=6, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 100 (SMM ), n=61711, ptype=6, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 101 (SMMS), n=61711, ptype=6, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 102 (SSIA), n=61711, ptype=6, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 103 (SIAS), n=61711, ptype=6, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 104 (SMET), n=61711, ptype=6, dtype=1, ndim=9, bpb=4 bytes=2221596d
Writing block 105 (SMTS), n=61711, ptype=6, dtype=1, ndim=9, bpb=4 bytes=2221596d
Writing block 106 (MF1 ), n=61711, ptype=6, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 107 (MeF1), n=61711, ptype=6, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 108 (MF2 ), n=61711, ptype=6, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 109 (MeF2), n=61711, ptype=6, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 110 (MFA ), n=61711, ptype=6, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 111 (MeFA), n=61711, ptype=6, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 112 (SM  ), n=61711, ptype=4, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 113 (SFKE), n=61711, ptype=4, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 114 (SFAE), n=61711, ptype=4, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 115 (SMWP), n=61711, ptype=4, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 116 (SMM ), n=61711, ptype=4, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 117 (SMMS), n=61711, ptype=4, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 118 (SSIA), n=61711, ptype=4, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 119 (SIAS), n=61711, ptype=4, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 120 (SMET), n=61711, ptype=4, dtype=1, ndim=9, bpb=4 bytes=2221596d
Writing block 121 (SMTS), n=61711, ptype=4, dtype=1, ndim=9, bpb=4 bytes=2221596d
Writing block 122 (MF1 ), n=61711, ptype=4, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 123 (MeF1), n=61711, ptype=4, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 124 (MF2 ), n=61711, ptype=4, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 125 (MeF2), n=61711, ptype=4, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 126 (MFA ), n=61711, ptype=4, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 127 (MeFA), n=61711, ptype=4, dtype=1, ndim=1, bpb=4 bytes=246844d
Writing block 128 (MMe5), n=9691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=38764d
Writing block 129 (RMe5), n=9691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=38764d
Writing block 130 (MCr5), n=9691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=38764d
Writing block 131 (RCr5), n=9691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=38764d
Writing block 132 (MMe2), n=9691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=38764d
Writing block 133 (RMe2), n=9691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=38764d
Writing block 134 (MCr2), n=9691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=38764d
Writing block 135 (RCr2), n=9691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=38764d
Writing block 136 (MAPT), n=61711, ptype=7, dtype=1, ndim=60, bpb=4 bytes=14810640d
Writing block 137 (SAPT), n=61711, ptype=8, dtype=1, ndim=10, bpb=4 bytes=2468440d
Writing block 138 (VAPT), n=61711, ptype=9, dtype=1, ndim=10, bpb=4 bytes=2468440d
Writing block 139 (BEGY), n=10321531, ptype=2, dtype=1, ndim=1, bpb=4 bytes=41286124d
Subgroup catalogues saved. took = 62.5125 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 5.667000e+00
 eagle_ph_key_ort: type= 2 timed by volker 2.894039e-01
 eagle_ph_key_ort: type= 3 timed by volker 9.790683e-02
 eagle_ph_key_ort: type= 4 timed by volker 9.790683e-02
 eagle_ph_key_ort: type= 5 timed by volker 9.790683e-02
 eagle_ph_key_ort: timing parallel sort = 6.165830e+00
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 24591269376

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 36547.9 Mbyte (on task=0), Smallest = 19038.9 Mbyte, Average = 19690 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     55.4764      57.4321  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    221.9056     279.3377  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    221.9056     501.2433  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    221.9056     723.1489  allocate_memory()/allocate.c/61
   0 2969 0                 P  16421.0134   17144.1623  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      5.1329   17149.3577  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList    379.6020   17528.9597  fof_fof()/fof.c/249
   0 2974 0         FOF_GList    632.6701   18161.6298  fof_fof()/fof.c/337
   0 2975 0             Group     10.1114   18171.7412  fof_fof()/fof.c/380
   0 2976 0          SubGroup  17995.7674   36167.5086  subfind()/subfind.c/376
   0 2977 0   sort_index_data    380.4294   36547.9380  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 72, max_elements= 6091503 number of bytes = 438588216
 eagle_ph_key_ort: timing parallel P exchange = 3.340392e+01
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 24591269376
 eagle_fetch_elements: max_bytes= 504, max_elements= 2105376 number of bytes = 1061109504
 eagle_ph_key_ort: timing parallel SphP exchange = 5.241013e-02
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 24591269376
 eagle_fetch_elements: max_bytes= 384, max_elements= 2753184 number of bytes = 1057222656
 eagle_ph_key_ort: timing parallel MetP exchange = 2.160072e-04
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 24591269376
 eagle_fetch_elements: max_bytes= 256, max_elements= 4098251 number of bytes = 1049152256
 eagle_ph_key_ort: timing parallel BHP exchange = 2.191067e-04
Sorting particle-data by peano-hilbert key took = 42.7362 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 74, max_elements= 5731367 number of bytes= 424121158
 eagle_ph_restore: timing parallel P exchange = 3.186277e+01
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 2105376 number of bytes= 1061109504
 eagle_ph_restore: timing parallel SphP exchange = 1.103282e-02
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2753184 number of bytes= 1057222656
 eagle_ph_restore: timing parallel MetP exchange = 3.801107e-03
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 4098251 number of bytes= 1049152256
 eagle_ph_restore: timing parallel BHP exchange = 4.233122e-03
Restoring original order after ph key sorting took = 32.014 sec

finished writing particle file...

Finished with SUBFIND.  (total time=32581.6 sec)

Finished computing FoF groups.  (presently allocated=17149.4 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=17144.2 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=17646.6 MB)
Before=93817
After=103553
NTopleaves= 90609  NTopnodes=103553 (space for 465370)
gravity work-load balance=1.00048   memory-balance=1.00049   SPH work-load balance=0
iter=0 exchange of 2110462337 particles (ret=0)
domain decomposition done. (took 24.1883 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 16.5627 MByte in top-level domain structure
Tree construction.
Finished FOF, total time doing fof/subfind = 33156.1 s
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
Application 1873767 exit codes: 1
Application 1873767 resources: utime ~4233918s, stime ~17049s, Rss ~21598016, inblocks ~118895021, outblocks ~157519170
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =  128968.66 Mb (on task=106), Smallest =  128960.99 Mb (on task=52), Average =  128963.84 Mb
Total Mem:	 Largest =  129069.07 Mb (on task=0), Smallest =  129069.07 Mb (on task=0), Average =  129069.07 Mb
Committed_AS:	 Largest =     108.07 Mb (on task=52), Smallest =     100.41 Mb (on task=106), Average =     105.23 Mb
SwapTotal:	 Largest =       0.00 Mb (on task=0), Smallest =       0.00 Mb (on task=0), Average =       0.00 Mb
SwapFree:	 Largest =       0.00 Mb (on task=0), Smallest =       0.00 Mb (on task=0), Average =       0.00 Mb
AllocMem:	 Largest =     108.07 Mb (on task=52), Smallest =     100.41 Mb (on task=106), Average =     105.23 Mb
-------------------------------------------------------------------------------------------
Using 1 OpenMP threads

This is P-Gadget, version 3.0.

Running on 128 MPI tasks.

Using 1 OpenMP threads

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
        NOCALLSOFSYSTEM
svn version:exported

Size of particle structure       296  [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.N2':
RunLabel                           "HaloF22_DM-N1024_ID67"
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                      /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/
YieldTablePath                     /zhome/academic/HLRS/xap/xapybahe/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         0
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         60000
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                 /zhome/academic/HLRS/xap/xapybahe/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /zhome/academic/HLRS/xap/xapybahe/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 17142.2 MByte for particle storage.


reading file `data//snapshot_026_z000p101/snap_026_z000p101.0.hdf5' on task=0 (contains 132936583 particles.)
distributing this file to tasks 0-7
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  132687050  (tot=     2124916242) masstab=0.000779539
Type 2 (disk):      9667  (tot=     0000134208) masstab=0
Type 3 (bulge):   239866  (tot=     0002354161) 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 :  2127404611


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=5.63379 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=17144.2 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=17646.6 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 17646.6 Mbyte (on task=1), Smallest = 17646.6 Mbyte, Average = 17646.6 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2965 0     ProcessedFlag     55.4764      57.4332  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle    221.9056     279.3388  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin    221.9056     501.2444  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin    221.9056     723.1499  allocate_memory()/allocate.c/61
   1 2969 0                 P  16421.0134   17144.1633  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes     23.0782   17167.3040  domain_allocate()/domain.c/570
   1 2973 0        domain_key    443.8112   17611.1152  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      1.7752   17612.8963  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      1.7752   17614.6715  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      1.7752   17616.4468  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      1.7752   17618.2220  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      1.7752   17619.9992  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      1.7752   17621.7764  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes     24.8534   17646.6299  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=102409
After=103001
NTopleaves= 90126  NTopnodes=103001 (space for 465370)
gravity work-load balance=1.00039   memory-balance=1.00038   SPH work-load balance=0
iter=0 exchange of 2111067432 particles (ret=0)
domain decomposition done. (took 29.5863 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 16.5879 MByte in top-level domain structure

Allocated 7296.18 MByte for BH-tree, and 0.343803 Mbyte for top-leaves.  (presently allocted 24445.9 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 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 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 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 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 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 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 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 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 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 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 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 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get 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...
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...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 24788.7 Mbyte (on task=31), Smallest = 24788.3 Mbyte, Average = 24788.6 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  31 2965 0     ProcessedFlag     55.4764      57.4332  allocate_memory()/allocate.c/52
  31 2966 0  NextActiveParticle    221.9056     279.3388  allocate_memory()/allocate.c/55
  31 2967 0     NextInTimeBin    221.9056     501.2444  allocate_memory()/allocate.c/58
  31 2968 0     PrevInTimeBin    221.9056     723.1499  allocate_memory()/allocate.c/61
  31 2969 0                 P  16421.0134   17144.1633  allocate_memory()/allocate.c/67
  31 2972 0          TopNodes      5.1079   17149.3338  domain_allocate()/domain.c/570
  31 2973 0   DomainNodeIndex      0.3438   17149.6776  force_treeallocate()/forcetree.c/4800
  31 2974 0        Nodes_base   3737.4439   20887.1215  force_treeallocate()/forcetree.c/4803
  31 2975 0     Extnodes_base   3114.5366   24001.6581  force_treeallocate()/forcetree.c/4811
  31 2976 0          Nextnode    222.2985   24223.9566  force_treeallocate()/forcetree.c/4820
  31 2977 0            Father    221.9056   24445.8622  force_treeallocate()/forcetree.c/4827
  31 2978 0           Ngblist     63.4259   24509.2881  density()/density.c/690
  31 2979 0              Left    126.8519   24636.1400  density()/density.c/692
  31 2980 0             Right    126.8519   24762.9918  density()/density.c/693
  31 2981 0    DataIndexTable      7.0175   24770.0094  density()/density.c/738
  31 2982 0      DataNodeList     18.7134   24788.7228  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/z_0.049.hdf5
GetCoolingTables: Redshift 2 /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/z_0.101.hdf5

Begin to compute FoF group catalogues...  (presently allocated=24445.9 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=17144.2 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=17646.6 MB)
Before=93361
After=103697
NTopleaves= 90735  NTopnodes=103697 (space for 465370)
gravity work-load balance=1.00046   memory-balance=1.00047   SPH work-load balance=0
iter=0 exchange of 2110986961 particles (ret=0)
domain decomposition done. (took 24.3062 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 16.5561 MByte in top-level domain structure

Comoving linking length: 0.00901189    (presently allocated=17149.4 MB)
Tree construction.

Start linking particles (presently allocated=25206.1 MB)
links on local processor done (took 173.579 sec).
Marked=0234304309 out of the 2124916242 primaries which are linked

linking across processors (presently allocated=25530 MB) 
have done 0002952660 cross links (processed 0234304309, took 24.6551 sec)
have done 0001309047 cross links (processed 0196236112, took 24.2007 sec)
have done 0000950945 cross links (processed 0167915316, took 19.6379 sec)
have done 0000642694 cross links (processed 0116159586, took 17.9791 sec)
have done 0000423022 cross links (processed 0069768276, took 16.4553 sec)
have done 0000275124 cross links (processed 0044341742, took 15.8153 sec)
have done 0000173132 cross links (processed 0021106368, took 8.05363 sec)
have done 0000096137 cross links (processed 0008390834, took 9.08641 sec)
have done 0000054437 cross links (processed 0003709998, took 1.70418 sec)
have done 0000028954 cross links (processed 0001617436, took 2.24221 sec)
have done 0000013844 cross links (processed 0000461373, took 0.362847 sec)
have done 0000008275 cross links (processed 0001177975, took 2.41494 sec)
have done 0000005207 cross links (processed 0000784328, took 1.61685 sec)
have done 0000001794 cross links (processed 0000040934, took 0.251003 sec)
have done 0000000780 cross links (processed 0000031803, took 0.255938 sec)
have done 0000000389 cross links (processed 0000007511, took 0.219317 sec)
have done 0000000194 cross links (processed 0000002581, took 0.21316 sec)
have done 0000000119 cross links (processed 0000001696, took 0.211809 sec)
have done 0000000074 cross links (processed 0000001278, took 0.208216 sec)
have done 0000000048 cross links (processed 0000000800, took 0.207152 sec)
have done 0000000016 cross links (processed 0000000274, took 0.207484 sec)
have done 0000000007 cross links (processed 0000000063, took 0.212457 sec)
have done 0000000003 cross links (processed 0000000026, took 0.211724 sec)
have done 0000000000 cross links (processed 0000000007, took 0.212996 sec)
Local groups found.

group finding took = 320.957 sec
Start finding nearest dm-particle (presently allocated=25206.1 MB)
still finding nearest... (presently allocated=25473.4 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.564055 sec
compiling local group data and catalogue took = 6.36162 sec

Total number of groups with at least 32 particles: 1273286
Largest group has 140958548 particles.
Total number of particles in groups: 1308288697

group properties are now allocated.. (presently allocated=18175.3 MB)
computation of group properties took = 0.64696 sec
start global sorting of group catalogues number 26
LargestGroup = 109882.685190; SmallestGroup = 0.024945
tagging gas particles with halo masses took = 0.302281 sec
Group catalogues globally sorted. took = 5.3365 sec
starting saving of group catalogue number 26
data//groups_026_z000p101
Group catalogues number 26 saved. took = 20.1351 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 7.3971 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 2.53556 sec
Tree construction for species 1 (2124916242).
tree build for species 1 took 7.12563 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 1191154448 particles. (took 290.894 sec)
ngb iteration 2: need to repeat for 0623504656 particles. (took 116.082 sec)
ngb iteration 3: need to repeat for 0467272913 particles. (took 54.5031 sec)
ngb iteration 4: need to repeat for 0397984989 particles. (took 34.1272 sec)
ngb iteration 5: need to repeat for 0346095424 particles. (took 26.1214 sec)
ngb iteration 6: need to repeat for 0282831509 particles. (took 21.3995 sec)
ngb iteration 7: need to repeat for 0208220491 particles. (took 17.4126 sec)
ngb iteration 8: need to repeat for 0138745375 particles. (took 12.3118 sec)
ngb iteration 9: need to repeat for 0085885394 particles. (took 8.34098 sec)
ngb iteration 10: need to repeat for 0050696188 particles. (took 5.5323 sec)
ngb iteration 11: need to repeat for 0029118614 particles. (took 3.63153 sec)
ngb iteration 12: need to repeat for 0016514634 particles. (took 2.38125 sec)
ngb iteration 13: need to repeat for 0009337865 particles. (took 1.6132 sec)
ngb iteration 14: need to repeat for 0004919201 particles. (took 1.16103 sec)
ngb iteration 15: need to repeat for 0002141576 particles. (took 0.746656 sec)
ngb iteration 16: need to repeat for 0001107200 particles. (took 0.445607 sec)
ngb iteration 17: need to repeat for 0000608219 particles. (took 0.322696 sec)
ngb iteration 18: need to repeat for 0000341877 particles. (took 0.276916 sec)
ngb iteration 19: need to repeat for 0000191776 particles. (took 0.251425 sec)
ngb iteration 20: need to repeat for 0000104833 particles. (took 0.236708 sec)
ngb iteration 21: need to repeat for 0000055631 particles. (took 0.227027 sec)
ngb iteration 22: need to repeat for 0000028360 particles. (took 0.227859 sec)
ngb iteration 23: need to repeat for 0000014010 particles. (took 0.224741 sec)
ngb iteration 24: need to repeat for 0000006619 particles. (took 0.219525 sec)
ngb iteration 25: need to repeat for 0000002993 particles. (took 0.217729 sec)
ngb iteration 26: need to repeat for 0000001261 particles. (took 0.217749 sec)
ngb iteration 27: need to repeat for 0000000478 particles. (took 0.217679 sec)
ngb iteration 28: need to repeat for 0000000155 particles. (took 0.216337 sec)
ngb iteration 29: need to repeat for 0000000058 particles. (took 0.216798 sec)
ngb iteration 30: need to repeat for 0000000010 particles. (took 0.216208 sec)
final operations ... 
density and smoothing length for species 1 took 603.918 sec
Tree construction.
tree build took 7.12022 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 2.43363 sec
Tree construction.
tree build took 7.10646 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 2.43405 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.118514 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 13.4529 sec
Tree construction for species 1 (2124916242).
tree build for species 1 took 7.12953 sec
density() of species 1 took 0 sec
Tree construction for species 4 (0).
tree build for species 4 took 1.38999 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 13.4411 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.0954189 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 13.4067 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 6.88552 sec
saving densities took 11.82 sec

Number of FOF halos treated with collective SubFind code = 4
(the adopted size-limit for the collective algorithm was 40719852 particles.)
the other 1273282 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 265152 - 757732070 

subfind_exchange()() took 7.09052 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=34006.3 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=34508.8 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 34508.8 Mbyte (on task=0), Smallest = 19186.4 Mbyte, Average = 19789 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     55.4764      57.4321  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    221.9056     279.3377  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    221.9056     501.2433  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    221.9056     723.1489  allocate_memory()/allocate.c/61
   0 2969 0                 P  16421.0134   17144.1623  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      5.1424   17149.3672  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList    380.0660   17529.4333  fof_fof()/fof.c/249
   0 2974 0         FOF_GList    633.4434   18162.8766  fof_fof()/fof.c/337
   0 2975 0             Group     12.4211   18175.2977  fof_fof()/fof.c/380
   0 2976 0          SubGroup  15831.0398   34006.3376  subfind()/subfind.c/376
   0 2979 0          TopNodes     23.0782   34029.4782  domain_allocate()/domain.c/570
   0 2980 0        domain_key    443.8112   34473.2894  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      1.7752   34475.0705  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      1.7752   34476.8458  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      1.7752   34478.6210  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      1.7752   34480.3963  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      1.7752   34482.1735  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      1.7752   34483.9507  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     24.8534   34508.8041  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=67681
After=85145
NTopleaves= 74502  NTopnodes=85145 (space for 465370)
gravity work-load balance=1.00077   memory-balance=1.00077   SPH work-load balance=0
iter=0 exchange of 0139711430 particles (ret=0)
domain decomposition done. (took 6.33695 sec)
Freed 17.4053 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 41304 Mbyte (on task=0), Smallest = 25981.6 Mbyte, Average = 26584.3 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     55.4764      57.4321  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    221.9056     279.3377  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    221.9056     501.2433  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    221.9056     723.1489  allocate_memory()/allocate.c/61
   0 2969 0                 P  16421.0134   17144.1623  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      5.1424   17149.3672  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList    380.0660   17529.4333  fof_fof()/fof.c/249
   0 2974 0         FOF_GList    633.4434   18162.8766  fof_fof()/fof.c/337
   0 2975 0             Group     12.4211   18175.2977  fof_fof()/fof.c/380
   0 2976 0          SubGroup  15831.0398   34006.3376  subfind()/subfind.c/376
   0 2979 0          TopNodes      4.2224   34010.6225  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.2842   34010.9067  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base   3735.8091   37746.7158  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base   3113.1743   40859.8901  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode    222.2304   41082.1205  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father    221.9056   41304.0261  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 10.136 sec  (presently allocated=41304 MB)
force_treebuild() took 28.6037 sec (presently allocated=41304 MB)
Start find_linkngb (1101889 particles on task=0)
find linkngb iteration 1: need to repeat for 0069543560 particles. (took 23.7657 sec)
find linkngb iteration 2: need to repeat for 0057120929 particles. (took 8.22704 sec)
find linkngb iteration 3: need to repeat for 0054220558 particles. (took 5.01519 sec)
find linkngb iteration 4: need to repeat for 0046341985 particles. (took 5.66325 sec)
find linkngb iteration 5: need to repeat for 0038114590 particles. (took 4.79648 sec)
find linkngb iteration 6: need to repeat for 0027450107 particles. (took 4.02755 sec)
find linkngb iteration 7: need to repeat for 0017218931 particles. (took 2.97397 sec)
find linkngb iteration 8: need to repeat for 0009777939 particles. (took 1.9254 sec)
find linkngb iteration 9: need to repeat for 0005235281 particles. (took 1.14684 sec)
find linkngb iteration 10: need to repeat for 0002713559 particles. (took 0.663076 sec)
find linkngb iteration 11: need to repeat for 0001379051 particles. (took 0.368402 sec)
find linkngb iteration 12: need to repeat for 0000284135 particles. (took 0.216409 sec)
find linkngb iteration 13: need to repeat for 0000006481 particles. (took 0.0483749 sec)
find linkngb iteration 14: need to repeat for 0000002222 particles. (took 0.0051899 sec)
find linkngb iteration 15: need to repeat for 0000000840 particles. (took 0.00245094 sec)
find linkngb iteration 16: need to repeat for 0000000305 particles. (took 0.00214696 sec)
find linkngb iteration 17: need to repeat for 0000000092 particles. (took 0.00200891 sec)
find linkngb iteration 18: need to repeat for 0000000020 particles. (took 0.00205493 sec)
find linkngb iteration 19: need to repeat for 0000000005 particles. (took 0.00211382 sec)
find_linkngb() took 58.8645 sec
Start finding nearest two (1101889 particles on task=0)
find_nearesttwo() took 13.3867 sec (presently allocated=41388.1 MB)
parallel sort of densities done. took 0.556823 sec
building distributed linked list. (presently allocated 41377.2 MB)
-------------------------------------------------------------------------------------------
AvailSwapTotal:	 Largest =       0.00 Mb (on task=0), Smallest =       0.00 Mb (on task=0), Average =       0.00 Mb
SwapFree:	 Largest =       0.00 Mb (on task=0), Smallest =       0.00 Mb (on task=0), Average =       0.00 Mb
AllocMem:	 Largest =     162.61 Mb (on task=124), Smallest =     155.55 Mb (on task=212), Average =     159.75 Mb
-------------------------------------------------------------------------------------------
Using 1 OpenMP threads

This is P-Gadget, version 3.0.

Running on 256 MPI tasks.

Using 1 OpenMP threads

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
        NOCALLSOFSYSTEM
svn version:exported

Size of particle structure       296  [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.N4':
RunLabel                           "HaloF22_DM-N1024_ID67"
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                      /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/
YieldTablePath                     /zhome/academic/HLRS/xap/xapybahe/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         0
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         30000
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                 /zhome/academic/HLRS/xap/xapybahe/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /zhome/academic/HLRS/xap/xapybahe/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 8571.1 MByte for particle storage.


reading file `data//snapshot_011_z001p017/snap_011_z001p017.0.hdf5' on task=0 (contains 133630836 particles.)
distributing this file to tasks 0-15
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  133368540  (tot=     2124916242) masstab=0.000779539
Type 2 (disk):      8243  (tot=     0000134208) masstab=0
Type 3 (bulge):   254053  (tot=     0002354161) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

-------------------------------------------------------------------------------------------
AvailMem:	 Largest =  128966.58 Mb (on task=18), Smallest =  128960.80 Mb (on task=98), Average =  128963.18 Mb
Total Mem:	 Largest =  129069.07 Mb (on task=0), Smallest =  129069.07 Mb (on task=0), Average =  129069.07 Mb
Committed_AS:	 Largest =     108.26 Mb (on task=98), Smallest =     102.49 Mb (on task=18), Average =     105.89 Mb
SwapTotal:	 Largest =       0.00 Mb (on task=0), Smallest =       0.00 Mb (on task=0), Average =       0.00 Mb
SwapFree:	 Largest =       0.00 Mb (on task=0), Smallest =       0.00 Mb (on task=0), Average =       0.00 Mb
AllocMem:	 Largest =     108.26 Mb (on task=98), Smallest =     102.49 Mb (on task=18), Average =     105.89 Mb
-------------------------------------------------------------------------------------------
Using 1 OpenMP threads

This is P-Gadget, version 3.0.

Running on 128 MPI tasks.

Using 1 OpenMP threads

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
        NOCALLSOFSYSTEM
svn version:exported

Size of particle structure       296  [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.N3':
RunLabel                           "HaloF22_DM-N1024_ID67"
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                      /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/
YieldTablePath                     /zhome/academic/HLRS/xap/xapybahe/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         0
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         40000
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                 /zhome/academic/HLRS/xap/xapybahe/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /zhome/academic/HLRS/xap/xapybahe/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 17142.2 MByte for particle storage.


reading file `data//snapshot_029_z000p000/snap_029_z000p000.0.hdf5' on task=0 (contains 136195914 particles.)
distributing this file to tasks 0-7
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  135454212  (tot=     2124916242) masstab=0.000779539
Type 2 (disk):      8559  (tot=     0000134208) masstab=0
Type 3 (bulge):   733143  (tot=     0002354161) 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 :  2127404611


Setting next time for grid output file to Time_next= 0.496923

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

Setting next time for snipshot file to Time_next= 0.503579

Setting next time for fof output to Time_next= 0.503579
 init.c: need to read some more variables from snapshot -- currently zeroed
 Converting element abundances to metal masses ... 
Testing ID uniqueness...
reading done.
Total number of particles :  2127404611


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
success.  took=2.98239 sec
Warning: You have compiled with EAGLE, but are running a DM only simulation. Hope you intended this .. 
Testing ID uniqueness...
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=8573.25 MB)
Allocated 11.6641 MByte for top-level domain structure
use of 239.678 MB of temporary storage for domain decomposition... (presently allocated=8824.59 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 8824.59 Mbyte (on task=1), Smallest = 8824.59 Mbyte, Average = 8824.59 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     27.7382      29.8859  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle    110.9528     140.8387  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin    110.9528     251.7915  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin    110.9528     362.7443  allocate_memory()/allocate.c/61
   1 2969 0                 P   8210.5067    8573.2510  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes     11.5391    8584.9151  domain_allocate()/domain.c/570
   1 2973 0        domain_key    221.9056    8806.8207  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      0.8876    8807.7200  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      0.8876    8808.6076  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      0.8876    8809.4953  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      0.8876    8810.3829  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      0.8876    8811.2744  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      0.8876    8812.1660  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes     12.4267    8824.5927  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=192929
After=207137
NTopleaves= 181245  NTopnodes=207137 (space for 232685)
success.  took=5.67825 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=17144.2 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=17646.6 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 17646.6 Mbyte (on task=1), Smallest = 17646.6 Mbyte, Average = 17646.6 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2965 0     ProcessedFlag     55.4764      57.4332  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle    221.9056     279.3388  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin    221.9056     501.2444  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin    221.9056     723.1499  allocate_memory()/allocate.c/61
   1 2969 0                 P  16421.0134   17144.1633  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes     23.0782   17167.3040  domain_allocate()/domain.c/570
   1 2973 0        domain_key    443.8112   17611.1152  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      1.7752   17612.8963  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      1.7752   17614.6715  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      1.7752   17616.4468  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      1.7752   17618.2220  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      1.7752   17619.9992  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      1.7752   17621.7764  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes     24.8534   17646.6299  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
gravity work-load balance=1.00056   memory-balance=1.00056   SPH work-load balance=0
iter=0 exchange of 2120149515 particles (ret=0)
Before=102977
After=103577
NTopleaves= 90630  NTopnodes=103577 (space for 465370)
domain decomposition done. (took 16.702 sec)
begin Peano-Hilbert order...
gravity work-load balance=1.00034   memory-balance=1.00034   SPH work-load balance=0
Peano-Hilbert done.
Freed 1.16949 MByte in top-level domain structure

Allocated 3674.81 MByte for BH-tree, and 0.691395 Mbyte for top-leaves.  (presently allocted 12259.1 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 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 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 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 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 predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get 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 predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get 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 predicted entropy from the internal energies read in the file...
Computing the weighted densities to get 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 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...
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 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 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 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...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 12443.5 Mbyte (on task=38), Smallest = 12442.8 Mbyte, Average = 12443.4 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  38 2964 0  Sendcount_matrix      0.2500       2.1477  allocate_memory()/allocate.c/41
  38 2965 0     ProcessedFlag     27.7382      29.8859  allocate_memory()/allocate.c/52
  38 2966 0  NextActiveParticle    110.9528     140.8387  allocate_memory()/allocate.c/55
  38 2967 0     NextInTimeBin    110.9528     251.7915  allocate_memory()/allocate.c/58
  38 2968 0     PrevInTimeBin    110.9528     362.7443  allocate_memory()/allocate.c/61
  38 2969 0                 P   8210.5067    8573.2510  allocate_memory()/allocate.c/67
  38 2972 0          TopNodes     10.2721    8583.6481  domain_allocate()/domain.c/570
  38 2973 0   DomainNodeIndex      0.6914    8584.3395  force_treeallocate()/forcetree.c/4800
  38 2974 0        Nodes_base   1882.9709   10467.3105  force_treeallocate()/forcetree.c/4803
  38 2975 0     Extnodes_base   1569.1425   12036.4529  force_treeallocate()/forcetree.c/4811
  38 2976 0          Nextnode    111.7430   12148.1959  force_treeallocate()/forcetree.c/4820
  38 2977 0            Father    110.9528   12259.1487  force_treeallocate()/forcetree.c/4827
  38 2978 0           Ngblist     31.7184   12290.8671  density()/density.c/690
  38 2979 0              Left     63.4369   12354.3040  density()/density.c/692
  38 2980 0             Right     63.4369   12417.7409  density()/density.c/693
  38 2981 0    DataIndexTable      7.0175   12424.7585  density()/density.c/738
  38 2982 0      DataNodeList     18.7134   12443.4719  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/z_0.957.hdf5
GetCoolingTables: Redshift 2 /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/z_1.053.hdf5

Begin to compute FoF group catalogues...  (presently allocated=12259.1 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=8573.25 MB)
Allocated 11.6641 MByte for top-level domain structure
use of 239.678 MB of temporary storage for domain decomposition... (presently allocated=8824.59 MB)
iter=0 exchange of 2110042818 particles (ret=0)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 15.1259 MByte for top-level domain structure
use of 245.003 MB of temporary storage for domain decomposition... (presently allocated=8833.38 MB)
Before=189177
After=209257
NTopleaves= 183100  NTopnodes=209257 (space for 302491)
gravity work-load balance=1.00072   memory-balance=1.00072   SPH work-load balance=0
domain decomposition done. (took 29.666 sec)
begin Peano-Hilbert order...
iter=0 exchange of 2119089778 particles (ret=0)
Peano-Hilbert done.
Freed 16.5616 MByte in top-level domain structure

Allocated 7296.28 MByte for BH-tree, and 0.345726 Mbyte for top-leaves.  (presently allocted 24446 MB)

Begin Ngb-tree construction.
domain decomposition done. (took 17.7145 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 4.26791 MByte in top-level domain structure

Comoving linking length: 0.00901189    (presently allocated=8583.75 MB)
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 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 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 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 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 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 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 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 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 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 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 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 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 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...
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...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 24788.8 Mbyte (on task=22), Smallest = 24788.4 Mbyte, Average = 24788.7 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  22 2965 0     ProcessedFlag     55.4764      57.4332  allocate_memory()/allocate.c/52
  22 2966 0  NextActiveParticle    221.9056     279.3388  allocate_memory()/allocate.c/55
  22 2967 0     NextInTimeBin    221.9056     501.2444  allocate_memory()/allocate.c/58
  22 2968 0     PrevInTimeBin    221.9056     723.1499  allocate_memory()/allocate.c/61
  22 2969 0                 P  16421.0134   17144.1633  allocate_memory()/allocate.c/67
  22 2972 0          TopNodes      5.1365   17149.3623  domain_allocate()/domain.c/570
  22 2973 0   DomainNodeIndex      0.3457   17149.7080  force_treeallocate()/forcetree.c/4800
  22 2974 0        Nodes_base   3737.4966   20887.2047  force_treeallocate()/forcetree.c/4803
  22 2975 0     Extnodes_base   3114.5805   24001.7852  force_treeallocate()/forcetree.c/4811
  22 2976 0          Nextnode    222.3007   24224.0859  force_treeallocate()/forcetree.c/4820
  22 2977 0            Father    221.9056   24445.9915  force_treeallocate()/forcetree.c/4827
  22 2978 0           Ngblist     63.4232   24509.4147  density()/density.c/690
  22 2979 0              Left    126.8463   24636.2610  density()/density.c/692
  22 2980 0             Right    126.8463   24763.1073  density()/density.c/693
  22 2981 0    DataIndexTable      7.0175   24770.1249  density()/density.c/738
  22 2982 0      DataNodeList     18.7134   24788.8383  density()/density.c/740
----------------------------------------------------------------------------------------

Start linking particles (presently allocated=12640.1 MB)
GetCoolingTables: Redshift 1 /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/z_0.000.hdf5
GetCoolingTables: Redshift 2 /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/z_0.049.hdf5

Begin to compute FoF group catalogues...  (presently allocated=24446 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=17144.2 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=17646.6 MB)
Before=93769
After=103505
NTopleaves= 90567  NTopnodes=103505 (space for 465370)
gravity work-load balance=1.00054   memory-balance=1.00055   SPH work-load balance=0
iter=0 exchange of 2112580276 particles (ret=0)
domain decomposition done. (took 24.1025 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 16.5649 MByte in top-level domain structure

Comoving linking length: 0.00901189    (presently allocated=17149.4 MB)
Tree construction.

Start linking particles (presently allocated=25205.2 MB)
links on local processor done (took 45.4777 sec).
Marked=0184000967 out of the 2124916242 primaries which are linked

linking across processors (presently allocated=12845.2 MB) 
have done 0003575763 cross links (processed 0184000967, took 5.8461 sec)
have done 0001458158 cross links (processed 0135359139, took 5.26909 sec)
have done 0000967196 cross links (processed 0109476712, took 5.09715 sec)
have done 0000563794 cross links (processed 0063670330, took 4.42418 sec)
have done 0000308598 cross links (processed 0035401680, took 2.87762 sec)
have done 0000178872 cross links (processed 0019304459, took 2.73043 sec)
have done 0000099378 cross links (processed 0008948367, took 2.34732 sec)
have done 0000055669 cross links (processed 0005358493, took 2.10894 sec)
have done 0000026904 cross links (processed 0001423677, took 0.457227 sec)
have done 0000011595 cross links (processed 0000628231, took 0.666475 sec)
have done 0000004229 cross links (processed 0000105845, took 0.161241 sec)
have done 0000001442 cross links (processed 0000023310, took 0.122888 sec)
have done 0000000487 cross links (processed 0000006747, took 0.118658 sec)
have done 0000000178 cross links (processed 0000002168, took 0.117413 sec)
have done 0000000062 cross links (processed 0000000727, took 0.117771 sec)
have done 0000000031 cross links (processed 0000000304, took 0.117097 sec)
have done 0000000011 cross links (processed 0000000139, took 0.121952 sec)
have done 0000000004 cross links (processed 0000000052, took 0.117211 sec)
have done 0000000001 cross links (processed 0000000025, took 0.121434 sec)
have done 0000000000 cross links (processed 0000000009, took 0.118863 sec)
Local groups found.

group finding took = 78.9135 sec
Start finding nearest dm-particle (presently allocated=12640.1 MB)
still finding nearest... (presently allocated=12812.4 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.300448 sec
compiling local group data and catalogue took = 3.94851 sec

Total number of groups with at least 32 particles: 1620309
Largest group has 52106395 particles.
Total number of particles in groups: 1031566206

group properties are now allocated.. (presently allocated=9098.23 MB)
computation of group properties took = 0.289778 sec
start global sorting of group catalogues number 11
LargestGroup = 40618.966919; SmallestGroup = 0.024945
tagging gas particles with halo masses took = 0.16936 sec
Group catalogues globally sorted. took = 2.57691 sec
starting saving of group catalogue number 11
data//groups_011_z001p017
Group catalogues number 11 saved. took = 14.5483 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 3.96463 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 1.3321 sec
Tree construction for species 1 (2124916242).
tree build for species 1 took 3.876 sec
finding densities, mode 1 
links on local processor done (took 202.703 sec).
Marked=0252683671 out of the 2124916242 primaries which are linked

linking across processors (presently allocated=25528.7 MB) 
ngb iteration 1: need to repeat for 1176476921 particles. (took 161.669 sec)
have done 0003046327 cross links (processed 0252683671, took 52.8351 sec)
ngb iteration 2: need to repeat for 0727239722 particles. (took 57.3041 sec)
have done 0001344406 cross links (processed 0213598117, took 52.1219 sec)
ngb iteration 3: need to repeat for 0548597919 particles. (took 31.9827 sec)
have done 0000978349 cross links (processed 0184800598, took 31.3941 sec)
ngb iteration 4: need to repeat for 0470355111 particles. (took 20.6643 sec)
ngb iteration 5: need to repeat for 0413808520 particles. (took 15.8557 sec)
ngb iteration 6: need to repeat for 0345169049 particles. (took 12.9112 sec)
have done 0000666472 cross links (processed 0134753490, took 36.7259 sec)
ngb iteration 7: need to repeat for 0262248692 particles. (took 10.4597 sec)
ngb iteration 8: need to repeat for 0181199266 particles. (took 8.08601 sec)
ngb iteration 9: need to repeat for 0115947834 particles. (took 5.75389 sec)
ngb iteration 10: need to repeat for 0070237741 particles. (took 3.94784 sec)
ngb iteration 11: need to repeat for 0041048000 particles. (took 2.58443 sec)
ngb iteration 12: need to repeat for 0023456930 particles. (took 1.73256 sec)
ngb iteration 13: need to repeat for 0013222483 particles. (took 1.15034 sec)
ngb iteration 14: need to repeat for 0007041039 particles. (took 0.786473 sec)
ngb iteration 15: need to repeat for 0003207724 particles. (took 0.538164 sec)
ngb iteration 16: need to repeat for 0001505981 particles. (took 0.335939 sec)
ngb iteration 17: need to repeat for 0000729332 particles. (took 0.221073 sec)
ngb iteration 18: need to repeat for 0000357942 particles. (took 0.16752 sec)
ngb iteration 19: need to repeat for 0000175532 particles. (took 0.146321 sec)
ngb iteration 20: need to repeat for 0000084345 particles. (took 0.133854 sec)
ngb iteration 21: need to repeat for 0000039383 particles. (took 0.146519 sec)
ngb iteration 22: need to repeat for 0000017748 particles. (took 0.129991 sec)
ngb iteration 23: need to repeat for 0000007533 particles. (took 0.122426 sec)
ngb iteration 24: need to repeat for 0000002995 particles. (took 0.121274 sec)
ngb iteration 25: need to repeat for 0000001097 particles. (took 0.120765 sec)
ngb iteration 26: need to repeat for 0000000358 particles. (took 0.120903 sec)
ngb iteration 27: need to repeat for 0000000111 particles. (took 0.119734 sec)
ngb iteration 28: need to repeat for 0000000030 particles. (took 0.12041 sec)
ngb iteration 29: need to repeat for 0000000008 particles. (took 0.120138 sec)
final operations ... 
density and smoothing length for species 1 took 339.669 sec
Tree construction.
have done 0000452081 cross links (processed 0092016038, took 32.7199 sec)
tree build took 3.95565 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 1.27983 sec
Tree construction.
tree build took 3.93716 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 1.27795 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.263929 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 7.74568 sec
Tree construction for species 1 (2124916242).
have done 0000301478 cross links (processed 0050427466, took 18.9806 sec)
tree build for species 1 took 3.95017 sec
density() of species 1 took 0 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.186201 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 7.71679 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.166783 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
have done 0000196837 cross links (processed 0020774970, took 11.8849 sec)
final operations ... 
density() of species 5 took 7.73266 sec
have done 0000116963 cross links (processed 0011616773, took 6.58473 sec)
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 3.79675 sec
have done 0000067420 cross links (processed 0006269272, took 5.52278 sec)
saving densities took 7.31011 sec

Number of FOF halos treated with collective SubFind code = 3
(the adopted size-limit for the collective algorithm was 20359926 particles.)
the other 1620306 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 173600 - 602876353 

subfind_exchange()() took 4.14353 sec
have done 0000043076 cross links (processed 0006095553, took 6.31763 sec)

collectively doing halo 1, num=11
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=15045.8 MB)
Allocated 15.1259 MByte for top-level domain structure
use of 245.003 MB of temporary storage for domain decomposition... (presently allocated=15305.9 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 15305.9 Mbyte (on task=0), Smallest = 9641.73 Mbyte, Average = 9796.57 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag     27.7382      29.8849  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    110.9528     140.8377  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    110.9528     251.7905  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    110.9528     362.7432  allocate_memory()/allocate.c/61
   0 2969 0                 P   8210.5067    8573.2499  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.3773    8583.7522  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList    190.2166    8773.9689  fof_fof()/fof.c/249
   0 2974 0         FOF_GList    317.0277    9090.9966  fof_fof()/fof.c/337
   0 2975 0             Group      7.2372    9098.2338  fof_fof()/fof.c/380
   0 2976 0          SubGroup   5947.5333   15045.7672  subfind()/subfind.c/376
   0 2979 0          TopNodes     15.0009   15060.8930  domain_allocate()/domain.c/570
   0 2980 0        domain_key    221.9056   15282.7986  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      1.1539   15283.9642  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      1.1539   15285.1181  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      1.1539   15286.2721  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      1.1539   15287.4260  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      1.1539   15288.5838  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      1.1539   15289.7416  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     16.1548   15305.8964  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=141801
After=171385
NTopleaves= 149962  NTopnodes=171385 (space for 302491)
gravity work-load balance=1.00047   memory-balance=1.00047   SPH work-load balance=0
iter=0 exchange of 0051890927 particles (ret=0)
domain decomposition done. (took 2.71799 sec)
Freed 6.00156 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 18723.6 Mbyte (on task=0), Smallest = 13059.5 Mbyte, Average = 13214.3 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     27.7382      29.8849  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    110.9528     140.8377  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    110.9528     251.7905  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    110.9528     362.7432  allocate_memory()/allocate.c/61
   0 2969 0                 P   8210.5067    8573.2499  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.3773    8583.7522  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList    190.2166    8773.9689  fof_fof()/fof.c/249
   0 2974 0         FOF_GList    317.0277    9090.9966  fof_fof()/fof.c/337
   0 2975 0             Group      7.2372    9098.2338  fof_fof()/fof.c/380
   0 2976 0          SubGroup   5947.5333   15045.7672  subfind()/subfind.c/376
   0 2979 0          TopNodes      8.4992   15054.3913  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.5721   15054.9634  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base   1879.6978   16934.6611  force_treeallocate()/forcetree.c/4803
   0 2982 0     Extnodes_base   1566.4148   18501.0759  force_treeallocate()/forcetree.c/4811
   0 2983 0          Nextnode    111.6066   18612.6825  force_treeallocate()/forcetree.c/4820
   0 2984 0            Father    110.9528   18723.6353  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 4.55665 sec  (presently allocated=18723.6 MB)
have done 0000023242 cross links (processed 0003558452, took 6.22195 sec)
have done 0000011657 cross links (processed 0000860908, took 1.39307 sec)
have done 0000004346 cross links (processed 0000091241, took 0.253491 sec)
have done 0000001676 cross links (processed 0000030459, took 0.237352 sec)
have done 0000000692 cross links (processed 0000012179, took 0.215504 sec)
have done 0000000261 cross links (processed 0000003171, took 0.20808 sec)
have done 0000000108 cross links (processed 0000001084, took 0.207397 sec)
have done 0000000039 cross links (processed 0000000407, took 0.207924 sec)
have done 0000000021 cross links (processed 0000000170, took 0.213368 sec)
have done 0000000013 cross links (processed 0000000077, took 0.214091 sec)
have done 0000000004 cross links (processed 0000000039, took 0.213574 sec)
have done 0000000001 cross links (processed 0000000010, took 0.209879 sec)
have done 0000000000 cross links (processed 0000000003, took 0.207343 sec)
Local groups found.

group finding took = 468.505 sec
Start finding nearest dm-particle (presently allocated=25205.2 MB)
still finding nearest... (presently allocated=25472.2 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.548836 sec
compiling local group data and catalogue took = 6.33445 sec

Total number of groups with at least 32 particles: 1240356
Largest group has 161083319 particles.
Total number of particles in groups: 1335702811

group properties are now allocated.. (presently allocated=18171.7 MB)
computation of group properties took = 0.649623 sec
start global sorting of group catalogues number 29
LargestGroup = 125570.728999; SmallestGroup = 0.024945
tagging gas particles with halo masses took = 0.312038 sec
force_treebuild() took 10.4045 sec (presently allocated=18723.6 MB)
Start find_linkngb (202716 particles on task=0)
find linkngb iteration 1: need to repeat for 0039292384 particles. (took 2.90536 sec)
Group catalogues globally sorted. took = 5.45275 sec
starting saving of group catalogue number 29
data//groups_029_z000p000
find linkngb iteration 2: need to repeat for 0033451354 particles. (took 1.58334 sec)
find linkngb iteration 3: need to repeat for 0031779746 particles. (took 1.04608 sec)
find linkngb iteration 4: need to repeat for 0027398786 particles. (took 1.16135 sec)
find linkngb iteration 5: need to repeat for 0022617958 particles. (took 1.03284 sec)
find linkngb iteration 6: need to repeat for 0016313103 particles. (took 0.86881 sec)
find linkngb iteration 7: need to repeat for 0010231479 particles. (took 0.656596 sec)
find linkngb iteration 8: need to repeat for 0005804803 particles. (took 0.445608 sec)
find linkngb iteration 9: need to repeat for 0003104720 particles. (took 0.275989 sec)
find linkngb iteration 10: need to repeat for 0001605935 particles. (took 0.168517 sec)
find linkngb iteration 11: need to repeat for 0000816606 particles. (took 0.0993521 sec)
find linkngb iteration 12: need to repeat for 0000168697 particles. (took 0.0620389 sec)
find linkngb iteration 13: need to repeat for 0000002367 particles. (took 0.02459 sec)
find linkngb iteration 14: need to repeat for 0000000395 particles. (took 0.00180101 sec)
find linkngb iteration 15: need to repeat for 0000000074 particles. (took 0.000795841 sec)
find linkngb iteration 16: need to repeat for 0000000012 particles. (took 0.000885963 sec)
find linkngb iteration 17: need to repeat for 0000000001 particles. (took 0.000658989 sec)
find linkngb iteration 18: need to repeat for 0000000001 particles. (took 0.00079608 sec)
find_linkngb() took 10.3383 sec
Start finding nearest two (202716 particles on task=0)
find_nearesttwo() took 1.7807 sec (presently allocated=18739.1 MB)
parallel sort of densities done. took 0.167081 sec
building distributed linked list. (presently allocated 18737.1 MB)
Group catalogues number 29 saved. took = 14.8699 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 7.20681 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 2.51193 sec
Tree construction for species 1 (2124916242).
tree build for species 1 took 7.12549 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 1200042336 particles. (took 274.654 sec)
ngb iteration 2: need to repeat for 0622623261 particles. (took 119.719 sec)
ngb iteration 3: need to repeat for 0470395673 particles. (took 53.8127 sec)
ngb iteration 4: need to repeat for 0401716412 particles. (took 34.2239 sec)
ngb iteration 5: need to repeat for 0349202583 particles. (took 26.2807 sec)
ngb iteration 6: need to repeat for 0284765467 particles. (took 21.7892 sec)
ngb iteration 7: need to repeat for 0208909379 particles. (took 17.6346 sec)
ngb iteration 8: need to repeat for 0138638069 particles. (took 12.5034 sec)
ngb iteration 9: need to repeat for 0085482638 particles. (took 8.35792 sec)
ngb iteration 10: need to repeat for 0050285322 particles. (took 5.49457 sec)
ngb iteration 11: need to repeat for 0028816804 particles. (took 3.56925 sec)
ngb iteration 12: need to repeat for 0016325620 particles. (took 2.36658 sec)
ngb iteration 13: need to repeat for 0009230849 particles. (took 1.60076 sec)
ngb iteration 14: need to repeat for 0004853878 particles. (took 1.09415 sec)
ngb iteration 15: need to repeat for 0002097671 particles. (took 0.729519 sec)
ngb iteration 16: need to repeat for 0001097813 particles. (took 0.438067 sec)
ngb iteration 17: need to repeat for 0000611957 particles. (took 0.326847 sec)
ngb iteration 18: need to repeat for 0000349563 particles. (took 0.286027 sec)
ngb iteration 19: need to repeat for 0000198408 particles. (took 0.248464 sec)
ngb iteration 20: need to repeat for 0000110200 particles. (took 0.230494 sec)
ngb iteration 21: need to repeat for 0000059271 particles. (took 0.223226 sec)
ngb iteration 22: need to repeat for 0000030634 particles. (took 0.219245 sec)
ngb iteration 23: need to repeat for 0000015016 particles. (took 0.215278 sec)
ngb iteration 24: need to repeat for 0000007012 particles. (took 0.213508 sec)
ngb iteration 25: need to repeat for 0000003177 particles. (took 0.212775 sec)
ngb iteration 26: need to repeat for 0000001350 particles. (took 0.210287 sec)
ngb iteration 27: need to repeat for 0000000531 particles. (took 0.211331 sec)
ngb iteration 28: need to repeat for 0000000185 particles. (took 0.209746 sec)
ngb iteration 29: need to repeat for 0000000063 particles. (took 0.209411 sec)
ngb iteration 30: need to repeat for 0000000022 particles. (took 0.209566 sec)
ngb iteration 31: need to repeat for 0000000003 particles. (took 0.209648 sec)
final operations ... 
density and smoothing length for species 1 took 591.619 sec
Tree construction.
tree build took 7.11077 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 2.43582 sec
Tree construction.
tree build took 7.08792 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 2.43328 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.0741701 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 13.5926 sec
Tree construction for species 1 (2124916242).
tree build for species 1 took 7.12618 sec
density() of species 1 took 0 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.074718 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 13.5198 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.0799189 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 13.5941 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 6.93392 sec
saving densities took 11.1478 sec

Number of FOF halos treated with collective SubFind code = 5
(the adopted size-limit for the collective algorithm was 40719852 particles.)
the other 1240351 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 279552 - 696168102 

subfind_exchange()() took 5.70778 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=36167.5 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=36670 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 36670 Mbyte (on task=0), Smallest = 19161.3 Mbyte, Average = 19812.1 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     55.4764      57.4321  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    221.9056     279.3377  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    221.9056     501.2433  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    221.9056     723.1489  allocate_memory()/allocate.c/61
   0 2969 0                 P  16421.0134   17144.1623  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      5.1329   17149.3577  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList    379.6020   17528.9597  fof_fof()/fof.c/249
   0 2974 0         FOF_GList    632.6701   18161.6298  fof_fof()/fof.c/337
   0 2975 0             Group     10.1114   18171.7412  fof_fof()/fof.c/380
   0 2976 0          SubGroup  17995.7674   36167.5086  subfind()/subfind.c/376
   0 2979 0          TopNodes     23.0782   36190.6493  domain_allocate()/domain.c/570
   0 2980 0        domain_key    443.8112   36634.4605  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      1.7752   36636.2416  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      1.7752   36638.0168  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      1.7752   36639.7921  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      1.7752   36641.5673  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      1.7752   36643.3445  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      1.7752   36645.1217  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     24.8534   36669.9751  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=65089
After=84289
NTopleaves= 73753  NTopnodes=84289 (space for 465370)
gravity work-load balance=1.0007   memory-balance=1.00069   SPH work-load balance=0
iter=0 exchange of 0159861761 particles (ret=0)
domain decomposition done. (took 5.32592 sec)
Freed 17.4445 MByte in top-level domain structure
------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     55.4764      57.4321  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    221.9056     279.3377  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    221.9056     501.2433  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    221.9056     723.1489  allocate_memory()/allocate.c/61
   0 2969 0                 P  16421.0134   17144.1623  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      5.1329   17149.3577  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList    379.6020   17528.9597  fof_fof()/fof.c/249
   0 2974 0         FOF_GList    632.6701   18161.6298  fof_fof()/fof.c/337
   0 2975 0             Group     10.1114   18171.7412  fof_fof()/fof.c/380
   0 2976 0          SubGroup  17995.7674   36167.5086  subfind()/subfind.c/376
   0 2979 0          TopNodes      4.1800   36171.7511  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.2813   36172.0324  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base   3735.7308   39907.7632  force_treeallocate()/forcetree.c/4803
----------------------------------------------------------------------------------------

Task=0: Not enough memory in mymalloc_fullinfo() to allocate 3113.11 MB for variable 'Extnodes_base' at force_treeallocate()/forcetree.c/line 4811 (FreeBytes=92.2368 MB).
task 0: endrun called with an error level of 812


Rank 0 [Thu Sep 10 09:05:42 2015] [c0-2c1s11n3] application called MPI_Abort(MPI_COMM_WORLD, 812) - process 0
_pmiu_daemon(SIGCHLD): [NID 04719] [c0-2c1s11n3] [Thu Sep 10 09:05:44 2015] PE RANK 0 exit signal Aborted
[NID 04719] 2015-09-10 09:05:44 Apid 1876746: initiated application termination
Application 1876746 exit codes: 134
Application 1876746 exit signals: Killed
Application 1876746 resources: utime ~1330s, stime ~16s, Rss ~13876036, inblocks ~8378387, outblocks ~2954633
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =  128967.25 Mb (on task=88), Smallest =  128960.18 Mb (on task=10), Average =  128963.44 Mb
Total Mem:	 Largest =  129069.07 Mb (on task=0), Smallest =  129069.07 Mb (on task=0), Average =  129069.07 Mb
Committed_AS:	 Largest =     108.89 Mb (on task=10), Smallest =     101.82 Mb (on task=88), Average =     105.62 Mb
SwapTotal:	 Largest =       0.00 Mb (on task=0), Smallest =       0.00 Mb (on task=0), Average =       0.00 Mb
SwapFree:	 Largest =       0.00 Mb (on task=0), Smallest =       0.00 Mb (on task=0), Average =       0.00 Mb
AllocMem:	 Largest =     108.89 Mb (on task=10), Smallest =     101.82 Mb (on task=88), Average =     105.62 Mb
-------------------------------------------------------------------------------------------
Using 1 OpenMP threads

This is P-Gadget, version 3.0.

Running on 128 MPI tasks.

Using 1 OpenMP threads

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
        NOCALLSOFSYSTEM
svn version:exported

Size of particle structure       296  [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.N3':
RunLabel                           "HaloF22_DM-N1024_ID67"
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                      /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/
YieldTablePath                     /zhome/academic/HLRS/xap/xapybahe/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         0
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         40000
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                 /zhome/academic/HLRS/xap/xapybahe/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /zhome/academic/HLRS/xap/xapybahe/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 17142.2 MByte for particle storage.


reading file `data//snapshot_028_z000p036/snap_028_z000p036.0.hdf5' on task=0 (contains 132044365 particles.)
distributing this file to tasks 0-7
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  132014885  (tot=     2124916242) masstab=0.000779539
Type 2 (disk):      7726  (tot=     0000134208) masstab=0
Type 3 (bulge):    21754  (tot=     0002354161) 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 :  2127404611


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=5.68793 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=17144.2 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=17646.6 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 17646.6 Mbyte (on task=1), Smallest = 17646.6 Mbyte, Average = 17646.6 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2965 0     ProcessedFlag     55.4764      57.4332  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle    221.9056     279.3388  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin    221.9056     501.2444  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin    221.9056     723.1499  allocate_memory()/allocate.c/61
   1 2969 0                 P  16421.0134   17144.1633  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes     23.0782   17167.3040  domain_allocate()/domain.c/570
   1 2973 0        domain_key    443.8112   17611.1152  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      1.7752   17612.8963  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      1.7752   17614.6715  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      1.7752   17616.4468  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      1.7752   17618.2220  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      1.7752   17619.9992  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      1.7752   17621.7764  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes     24.8534   17646.6299  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=102337
After=103097
NTopleaves= 90210  NTopnodes=103097 (space for 465370)
gravity work-load balance=1.00032   memory-balance=1.00032   SPH work-load balance=0
iter=0 exchange of 2111413074 particles (ret=0)
identification of primary candidates took 801.492 sec
adding background as candidate took 0.221809 sec
domain decomposition done. (took 29.6652 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 16.5835 MByte in top-level domain structure

Allocated 7296.2 MByte for BH-tree, and 0.344124 Mbyte for top-leaves.  (presently allocted 24445.9 MB)

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

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 24788.7 Mbyte (on task=74), Smallest = 24788.2 Mbyte, Average = 24788.6 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  74 2965 0     ProcessedFlag     55.4764      57.4332  allocate_memory()/allocate.c/52
  74 2966 0  NextActiveParticle    221.9056     279.3388  allocate_memory()/allocate.c/55
  74 2967 0     NextInTimeBin    221.9056     501.2444  allocate_memory()/allocate.c/58
  74 2968 0     PrevInTimeBin    221.9056     723.1499  allocate_memory()/allocate.c/61
  74 2969 0                 P  16421.0134   17144.1633  allocate_memory()/allocate.c/67
  74 2972 0          TopNodes      5.1127   17149.3385  domain_allocate()/domain.c/570
  74 2973 0   DomainNodeIndex      0.3441   17149.6826  force_treeallocate()/forcetree.c/4800
  74 2974 0        Nodes_base   3737.4527   20887.1353  force_treeallocate()/forcetree.c/4803
  74 2975 0     Extnodes_base   3114.5439   24001.6793  force_treeallocate()/forcetree.c/4811
  74 2976 0          Nextnode    222.2989   24223.9781  force_treeallocate()/forcetree.c/4820
  74 2977 0            Father    221.9056   24445.8837  force_treeallocate()/forcetree.c/4827
  74 2978 0           Ngblist     63.4222   24509.3059  density()/density.c/690
  74 2979 0              Left    126.8443   24636.1502  density()/density.c/692
  74 2980 0             Right    126.8443   24762.9946  density()/density.c/693
  74 2981 0    DataIndexTable      7.0175   24770.0121  density()/density.c/738
  74 2982 0      DataNodeList     18.7134   24788.7255  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/z_0.000.hdf5
GetCoolingTables: Redshift 2 /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/z_0.049.hdf5

Begin to compute FoF group catalogues...  (presently allocated=24445.9 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=17144.2 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=17646.6 MB)
Before=93697
After=103921
NTopleaves= 90931  NTopnodes=103921 (space for 465370)
gravity work-load balance=1.00061   memory-balance=1.00061   SPH work-load balance=0
iter=0 exchange of 2110693532 particles (ret=0)
domain decomposition done. (took 24.0561 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 16.5458 MByte in top-level domain structure

Comoving linking length: 0.00901189    (presently allocated=17149.4 MB)
Tree construction.

Start linking particles (presently allocated=25206.7 MB)
establishing of rank order took 187.933 sec  (p=52106395, grouplen=52106395) presently allocated 18737.1 MB

total number of subhalo candidates=232219

number of subhalo candidates that can be done independently=201840.
(Largest size is 5535, finding them took 0.093874 sec)
links on local processor done (took 185.368 sec).
Marked=0245373498 out of the 2124916242 primaries which are linked

linking across processors (presently allocated=25530.7 MB) 
have done 0003045081 cross links (processed 0245373498, took 31.3177 sec)
have done 0001343284 cross links (processed 0206850460, took 31.1328 sec)
have done 0000980441 cross links (processed 0182025888, took 27.158 sec)
have done 0000673086 cross links (processed 0133370893, took 25.3399 sec)
have done 0000434469 cross links (processed 0074251142, took 21.2556 sec)
have done 0000262769 cross links (processed 0037821708, took 15.9494 sec)
have done 0000158651 cross links (processed 0028504984, took 11.2535 sec)
particles are marked (took 223.823)
independent subhalos are assembled on individual CPUs for unbinding (0.489824 sec, (presently allocated=18737.1 MB)
unbinding of independent ones took 0.274534 sec
particles have returned to their original processor (0.680401 sec, presently allocated 18737.1 MB)
have done 0000097962 cross links (processed 0018885621, took 16.6552 sec)

number of subhalo candidates that can be done independently=27153.
(Largest size is 14742, finding them took 5.59067 sec)
have done 0000062045 cross links (processed 0006416174, took 4.13335 sec)
have done 0000036360 cross links (processed 0003941982, took 1.95235 sec)
have done 0000020665 cross links (processed 0001944789, took 1.78498 sec)
have done 0000014230 cross links (processed 0002357905, took 4.52453 sec)
have done 0000007989 cross links (processed 0001660767, took 4.06954 sec)
have done 0000003672 cross links (processed 0000313465, took 1.4901 sec)
have done 0000001310 cross links (processed 0000019765, took 0.219074 sec)
have done 0000000494 cross links (processed 0000006997, took 0.216003 sec)
have done 0000000193 cross links (processed 0000002611, took 0.213179 sec)
have done 0000000085 cross links (processed 0000000964, took 0.214528 sec)
have done 0000000021 cross links (processed 0000000349, took 0.213992 sec)
have done 0000000006 cross links (processed 0000000081, took 0.213654 sec)
have done 0000000000 cross links (processed 0000000021, took 0.209384 sec)
Local groups found.

group finding took = 385.548 sec
Start finding nearest dm-particle (presently allocated=25206.7 MB)
still finding nearest... (presently allocated=25474 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.561948 sec
compiling local group data and catalogue took = 6.14992 sec

Total number of groups with at least 32 particles: 1257012
Largest group has 154502984 particles.
Total number of particles in groups: 1324428597

group properties are now allocated.. (presently allocated=18174.5 MB)
computation of group properties took = 0.651205 sec
start global sorting of group catalogues number 28
LargestGroup = 120441.101250; SmallestGroup = 0.024945
tagging gas particles with halo masses took = 0.312845 sec
Group catalogues globally sorted. took = 5.40486 sec
starting saving of group catalogue number 28
data//groups_028_z000p036
Group catalogues number 28 saved. took = 15.4153 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 7.18538 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 2.53151 sec
Tree construction for species 1 (2124916242).
tree build for species 1 took 7.08947 sec
finding densities, mode 1 
particles are marked (took 81.9391)
independent subhalos are assembled on individual CPUs for unbinding (0.48149 sec, (presently allocated=18737.1 MB)
unbinding of independent ones took 0.738313 sec
particles have returned to their original processor (0.664477 sec, presently allocated 18737.1 MB)

number of subhalo candidates that can be done independently=2886.
(Largest size is 133986, finding them took 5.73135 sec)
particles are marked (took 52.9883)
independent subhalos are assembled on individual CPUs for unbinding (0.474895 sec, (presently allocated=18737.1 MB)
unbinding of independent ones took 5.50821 sec
particles have returned to their original processor (0.663749 sec, presently allocated 18737.1 MB)

number of subhalo candidates that can be done independently=301.
(Largest size is 295451, finding them took 3.33115 sec)
particles are marked (took 51.2092)
independent subhalos are assembled on individual CPUs for unbinding (0.485399 sec, (presently allocated=18737.1 MB)
unbinding of independent ones took 12.2101 sec
particles have returned to their original processor (0.669063 sec, presently allocated 18737.1 MB)

number of subhalo candidates that can be done independently=28.
(Largest size is 800359, finding them took 3.06981 sec)
particles are marked (took 41.8246)
independent subhalos are assembled on individual CPUs for unbinding (0.533143 sec, (presently allocated=18737.1 MB)
ngb iteration 1: need to repeat for 1197265216 particles. (took 275.341 sec)
unbinding of independent ones took 66.1049 sec
particles have returned to their original processor (0.681856 sec, presently allocated 18737.1 MB)

number of subhalo candidates that can be done independently=7.
(Largest size is 3762963, finding them took 3.07744 sec)
particles are marked (took 24.651)
independent subhalos are assembled on individual CPUs for unbinding (0.470376 sec, (presently allocated=18737.1 MB)
unbinding of independent ones took 30.2238 sec
particles have returned to their original processor (0.659192 sec, presently allocated 18737.1 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 3762963, finding them took 3.0665 sec)
particles are marked (took 16.8801)
independent subhalos are assembled on individual CPUs for unbinding (0.465908 sec, (presently allocated=18737.1 MB)
unbinding of independent ones took 8.03666 sec
particles have returned to their original processor (0.6632 sec, presently allocated 18737.1 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 12322581, finding them took 3.06359 sec)
too few, I do the rest of 3 collectively

ngb iteration 2: need to repeat for 0623337569 particles. (took 117.938 sec)
collective unbinding of nr=0 (3) of length=12322581 ... ngb iteration 3: need to repeat for 0469731158 particles. (took 54.5056 sec)
ngb iteration 4: need to repeat for 0400818870 particles. (took 34.0675 sec)
maximum alloacted 18737.9 MB
took 104.856 sec
ngb iteration 5: need to repeat for 0348535553 particles. (took 26.2104 sec)
collective unbinding of nr=1 (3) of length=3762963 ... ngb iteration 6: need to repeat for 0284445246 particles. (took 21.9561 sec)
maximum alloacted 18737.9 MB
took 33.7426 sec
collective unbinding of nr=2 (3) of length=52106395 ... ngb iteration 7: need to repeat for 0208945333 particles. (took 17.4217 sec)
ngb iteration 8: need to repeat for 0138859609 particles. (took 12.3401 sec)
ngb iteration 9: need to repeat for 0085731647 particles. (took 8.37482 sec)
ngb iteration 10: need to repeat for 0050489808 particles. (took 5.54641 sec)
ngb iteration 11: need to repeat for 0028961621 particles. (took 3.59995 sec)
ngb iteration 12: need to repeat for 0016412673 particles. (took 2.37708 sec)
ngb iteration 13: need to repeat for 0009283254 particles. (took 1.60637 sec)
ngb iteration 14: need to repeat for 0004886846 particles. (took 1.12414 sec)
ngb iteration 15: need to repeat for 0002118798 particles. (took 0.763751 sec)
ngb iteration 16: need to repeat for 0001104398 particles. (took 0.451275 sec)
ngb iteration 17: need to repeat for 0000613182 particles. (took 0.332125 sec)
ngb iteration 18: need to repeat for 0000347898 particles. (took 0.279725 sec)
ngb iteration 19: need to repeat for 0000197444 particles. (took 0.256877 sec)
ngb iteration 20: need to repeat for 0000109219 particles. (took 0.239149 sec)
ngb iteration 21: need to repeat for 0000058386 particles. (took 0.230735 sec)
ngb iteration 22: need to repeat for 0000030297 particles. (took 0.219899 sec)
ngb iteration 23: need to repeat for 0000014778 particles. (took 0.217039 sec)
ngb iteration 24: need to repeat for 0000007003 particles. (took 0.216131 sec)
ngb iteration 25: need to repeat for 0000003163 particles. (took 0.217988 sec)
ngb iteration 26: need to repeat for 0000001394 particles. (took 0.21754 sec)
ngb iteration 27: need to repeat for 0000000576 particles. (took 0.215229 sec)
ngb iteration 28: need to repeat for 0000000212 particles. (took 0.213596 sec)
ngb iteration 29: need to repeat for 0000000072 particles. (took 0.212604 sec)
ngb iteration 30: need to repeat for 0000000025 particles. (took 0.214262 sec)
ngb iteration 31: need to repeat for 0000000010 particles. (took 0.2144 sec)
ngb iteration 32: need to repeat for 0000000005 particles. (took 0.21204 sec)
ngb iteration 33: need to repeat for 0000000001 particles. (took 0.212556 sec)
final operations ... 
density and smoothing length for species 1 took 591.477 sec
Tree construction.
tree build took 7.06326 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 2.42798 sec
Tree construction.
tree build took 7.093 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 2.44902 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.073241 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 13.4714 sec
Tree construction for species 1 (2124916242).
tree build for species 1 took 7.0637 sec
density() of species 1 took 0 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.0701592 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 13.4737 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.0758779 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 13.5462 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 6.90512 sec
saving densities took 10.7759 sec

Number of FOF halos treated with collective SubFind code = 5
(the adopted size-limit for the collective algorithm was 40719852 particles.)
the other 1257007 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 264096 - 695837372 

subfind_exchange()() took 5.51351 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=35465.5 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=35967.9 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 35967.9 Mbyte (on task=0), Smallest = 19171.9 Mbyte, Average = 19802.7 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     55.4764      57.4321  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    221.9056     279.3377  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    221.9056     501.2433  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    221.9056     723.1489  allocate_memory()/allocate.c/61
   0 2969 0                 P  16421.0134   17144.1623  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      5.1536   17149.3783  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList    380.3077   17529.6861  fof_fof()/fof.c/249
   0 2974 0         FOF_GList    633.8462   18163.5323  fof_fof()/fof.c/337
   0 2975 0             Group     10.9456   18174.4779  fof_fof()/fof.c/380
   0 2976 0          SubGroup  17290.9930   35465.4708  subfind()/subfind.c/376
   0 2979 0          TopNodes     23.0782   35488.6115  domain_allocate()/domain.c/570
   0 2980 0        domain_key    443.8112   35932.4227  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      1.7752   35934.2038  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      1.7752   35935.9791  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      1.7752   35937.7543  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      1.7752   35939.5296  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      1.7752   35941.3068  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      1.7752   35943.0840  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     24.8534   35967.9374  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=65745
After=84561
NTopleaves= 73991  NTopnodes=84561 (space for 465370)
gravity work-load balance=1.00075   memory-balance=1.00075   SPH work-load balance=0
iter=0 exchange of 0153294283 particles (ret=0)
domain decomposition done. (took 5.07295 sec)
Freed 17.4321 MByte in top-level domain structure
------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     55.4764      57.4321  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    221.9056     279.3377  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    221.9056     501.2433  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    221.9056     723.1489  allocate_memory()/allocate.c/61
   0 2969 0                 P  16421.0134   17144.1623  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      5.1536   17149.3783  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList    380.3077   17529.6861  fof_fof()/fof.c/249
   0 2974 0         FOF_GList    633.8462   18163.5323  fof_fof()/fof.c/337
   0 2975 0             Group     10.9456   18174.4779  fof_fof()/fof.c/380
   0 2976 0          SubGroup  17290.9930   35465.4708  subfind()/subfind.c/376
   0 2979 0          TopNodes      4.1935   35469.7268  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.2823   35470.0091  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base   3735.7557   39205.7648  force_treeallocate()/forcetree.c/4803
----------------------------------------------------------------------------------------

Task=0: Not enough memory in mymalloc_fullinfo() to allocate 3113.13 MB for variable 'Extnodes_base' at force_treeallocate()/forcetree.c/line 4811 (FreeBytes=794.235 MB).
task 0: endrun called with an error level of 812


Rank 0 [Thu Sep 10 09:26:51 2015] [c0-0c1s15n3] application called MPI_Abort(MPI_COMM_WORLD, 812) - process 0
_pmiu_daemon(SIGCHLD): [NID 00127] [c0-0c1s15n3] [Thu Sep 10 09:26:53 2015] PE RANK 0 exit signal Aborted
[NID 00127] 2015-09-10 09:26:53 Apid 1876782: initiated application termination
Application 1876782 exit codes: 134
Application 1876782 exit signals: Killed
Application 1876782 resources: utime ~1241s, stime ~16s, Rss ~13299360, inblocks ~8135359, outblocks ~2957291
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =  128966.04 Mb (on task=76), Smallest =  128960.38 Mb (on task=42), Average =  128963.09 Mb
Total Mem:	 Largest =  129069.07 Mb (on task=0), Smallest =  129069.07 Mb (on task=0), Average =  129069.07 Mb
Committed_AS:	 Largest =     108.68 Mb (on task=42), Smallest =     103.03 Mb (on task=76), Average =     105.98 Mb
SwapTotal:	 Largest =       0.00 Mb (on task=0), Smallest =       0.00 Mb (on task=0), Average =       0.00 Mb
SwapFree:	 Largest =       0.00 Mb (on task=0), Smallest =       0.00 Mb (on task=0), Average =       0.00 Mb
AllocMem:	 Largest =     108.68 Mb (on task=42), Smallest =     103.03 Mb (on task=76), Average =     105.98 Mb
-------------------------------------------------------------------------------------------
Using 1 OpenMP threads

This is P-Gadget, version 3.0.

Running on 128 MPI tasks.

Using 1 OpenMP threads

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
        NOCALLSOFSYSTEM
svn version:exported

Size of particle structure       296  [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.N3':
RunLabel                           "HaloF22_DM-N1024_ID67"
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                      /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/
YieldTablePath                     /zhome/academic/HLRS/xap/xapybahe/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         0
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         40000
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                 /zhome/academic/HLRS/xap/xapybahe/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /zhome/academic/HLRS/xap/xapybahe/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 17142.2 MByte for particle storage.


reading file `data//snapshot_027_z000p073/snap_027_z000p073.0.hdf5' on task=0 (contains 136190228 particles.)
distributing this file to tasks 0-7
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  135343139  (tot=     2124916242) masstab=0.000779539
Type 2 (disk):      6784  (tot=     0000134208) masstab=0
Type 3 (bulge):   840305  (tot=     0002354161) 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 :  2127404611


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=5.67717 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=17144.2 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=17646.6 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 17646.6 Mbyte (on task=1), Smallest = 17646.6 Mbyte, Average = 17646.6 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2965 0     ProcessedFlag     55.4764      57.4332  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle    221.9056     279.3388  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin    221.9056     501.2444  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin    221.9056     723.1499  allocate_memory()/allocate.c/61
   1 2969 0                 P  16421.0134   17144.1633  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes     23.0782   17167.3040  domain_allocate()/domain.c/570
   1 2973 0        domain_key    443.8112   17611.1152  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      1.7752   17612.8963  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      1.7752   17614.6715  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      1.7752   17616.4468  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      1.7752   17618.2220  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      1.7752   17619.9992  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      1.7752   17621.7764  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes     24.8534   17646.6299  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=102577
After=103281
NTopleaves= 90371  NTopnodes=103281 (space for 465370)
gravity work-load balance=1.0004   memory-balance=1.0004   SPH work-load balance=0
iter=0 exchange of 2111062005 particles (ret=0)
domain decomposition done. (took 29.4203 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 16.5751 MByte in top-level domain structure

Allocated 7296.23 MByte for BH-tree, and 0.344738 Mbyte for top-leaves.  (presently allocted 24445.9 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 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 predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities 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 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 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 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 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 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 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 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 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities 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 = 24788.8 Mbyte (on task=80), Smallest = 24788.2 Mbyte, Average = 24788.7 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  80 2965 0     ProcessedFlag     55.4764      57.4332  allocate_memory()/allocate.c/52
  80 2966 0  NextActiveParticle    221.9056     279.3388  allocate_memory()/allocate.c/55
  80 2967 0     NextInTimeBin    221.9056     501.2444  allocate_memory()/allocate.c/58
  80 2968 0     PrevInTimeBin    221.9056     723.1499  allocate_memory()/allocate.c/61
  80 2969 0                 P  16421.0134   17144.1633  allocate_memory()/allocate.c/67
  80 2972 0          TopNodes      5.1218   17149.3476  domain_allocate()/domain.c/570
  80 2973 0   DomainNodeIndex      0.3447   17149.6924  force_treeallocate()/forcetree.c/4800
  80 2974 0        Nodes_base   3737.4695   20887.1619  force_treeallocate()/forcetree.c/4803
  80 2975 0     Extnodes_base   3114.5580   24001.7199  force_treeallocate()/forcetree.c/4811
  80 2976 0          Nextnode    222.2996   24224.0195  force_treeallocate()/forcetree.c/4820
  80 2977 0            Father    221.9056   24445.9250  force_treeallocate()/forcetree.c/4827
  80 2978 0           Ngblist     63.4268   24509.3519  density()/density.c/690
  80 2979 0              Left    126.8537   24636.2056  density()/density.c/692
  80 2980 0             Right    126.8537   24763.0592  density()/density.c/693
  80 2981 0    DataIndexTable      7.0175   24770.0768  density()/density.c/738
  80 2982 0      DataNodeList     18.7134   24788.7902  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/z_0.049.hdf5
GetCoolingTables: Redshift 2 /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/z_0.101.hdf5

Begin to compute FoF group catalogues...  (presently allocated=24445.9 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=17144.2 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=17646.6 MB)
Before=93801
After=104049
NTopleaves= 91043  NTopnodes=104049 (space for 465370)
gravity work-load balance=1.00052   memory-balance=1.00053   SPH work-load balance=0
iter=0 exchange of 2112889467 particles (ret=0)
domain decomposition done. (took 24.2412 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 16.54 MByte in top-level domain structure

Comoving linking length: 0.00901189    (presently allocated=17149.4 MB)
Tree construction.

Start linking particles (presently allocated=25207.2 MB)
maximum alloacted 18737.9 MB
links on local processor done (took 161.288 sec).
Marked=0239216319 out of the 2124916242 primaries which are linked

linking across processors (presently allocated=25531.4 MB) 
have done 0003010124 cross links (processed 0239216319, took 32.8942 sec)
took 514.496 sec

the collective unbinding of remaining halos took 667.473 sec

found 20116 bound substructures in FoF group of length 52106395
determination of parent subhalo took 0.100349 sec (presently allocated 18737.9 MB)
have done 0001342180 cross links (processed 0201105963, took 34.3762 sec)
have done 0000978317 cross links (processed 0175136247, took 31.7099 sec)
have done 0000668231 cross links (processed 0115621325, took 19.143 sec)
have done 0000439927 cross links (processed 0075088811, took 18.3514 sec)
have done 0000279013 cross links (processed 0044439929, took 18.1967 sec)
have done 0000173267 cross links (processed 0024609254, took 10.1908 sec)
have done 0000116425 cross links (processed 0017196631, took 9.17243 sec)
have done 0000084117 cross links (processed 0009771423, took 7.70199 sec)
have done 0000055154 cross links (processed 0006799377, took 4.43057 sec)
have done 0000034358 cross links (processed 0003912472, took 4.14262 sec)
have done 0000027288 cross links (processed 0004197228, took 4.03893 sec)
have done 0000023932 cross links (processed 0004374818, took 4.78415 sec)
have done 0000019200 cross links (processed 0003086566, took 4.33609 sec)
have done 0000013716 cross links (processed 0002346653, took 4.36702 sec)
have done 0000007297 cross links (processed 0001071055, took 4.10853 sec)
have done 0000002797 cross links (processed 0000055980, took 0.242362 sec)
have done 0000000886 cross links (processed 0000015546, took 0.235581 sec)
have done 0000000254 cross links (processed 0000003484, took 0.209702 sec)
have done 0000000078 cross links (processed 0000000988, took 0.210486 sec)
have done 0000000027 cross links (processed 0000000297, took 0.215158 sec)
have done 0000000005 cross links (processed 0000000098, took 0.215383 sec)
have done 0000000000 cross links (processed 0000000015, took 0.21233 sec)
Local groups found.

group finding took = 375.486 sec
Start finding nearest dm-particle (presently allocated=25207.2 MB)
still finding nearest... (presently allocated=25474.7 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.55855 sec
compiling local group data and catalogue took = 6.41855 sec

Total number of groups with at least 32 particles: 1265418
Largest group has 152759837 particles.
Total number of particles in groups: 1314945874

group properties are now allocated.. (presently allocated=18175.9 MB)
computation of group properties took = 0.670562 sec
start global sorting of group catalogues number 27
LargestGroup = 119082.250185; SmallestGroup = 0.024945
tagging gas particles with halo masses took = 0.306635 sec
Group catalogues globally sorted. took = 5.49582 sec
starting saving of group catalogue number 27
data//groups_027_z000p073
Group catalogues number 27 saved. took = 15.4903 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 7.15603 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 2.51669 sec
Tree construction for species 1 (2124916242).
tree build for species 1 took 7.11505 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 1193843405 particles. (took 265.485 sec)
ngb iteration 2: need to repeat for 0623399192 particles. (took 118.003 sec)
ngb iteration 3: need to repeat for 0468235644 particles. (took 51.6555 sec)
ngb iteration 4: need to repeat for 0399098663 particles. (took 33.225 sec)
ngb iteration 5: need to repeat for 0347060931 particles. (took 25.6929 sec)
ngb iteration 6: need to repeat for 0283463307 particles. (took 21.6367 sec)
ngb iteration 7: need to repeat for 0208489908 particles. (took 17.5673 sec)
ngb iteration 8: need to repeat for 0138781100 particles. (took 12.313 sec)
ngb iteration 9: need to repeat for 0085813837 particles. (took 8.4187 sec)
ngb iteration 10: need to repeat for 0050605651 particles. (took 5.58942 sec)
ngb iteration 11: need to repeat for 0029050899 particles. (took 3.67314 sec)
ngb iteration 12: need to repeat for 0016466350 particles. (took 2.43578 sec)
ngb iteration 13: need to repeat for 0009308699 particles. (took 1.66096 sec)
ngb iteration 14: need to repeat for 0004893928 particles. (took 1.13722 sec)
ngb iteration 15: need to repeat for 0002119399 particles. (took 0.756634 sec)
ngb iteration 16: need to repeat for 0001092964 particles. (took 0.43863 sec)
ngb iteration 17: need to repeat for 0000599494 particles. (took 0.327562 sec)
ngb iteration 18: need to repeat for 0000335686 particles. (took 0.276204 sec)
ngb iteration 19: need to repeat for 0000186723 particles. (took 0.248341 sec)
ngb iteration 20: need to repeat for 0000101682 particles. (took 0.234185 sec)
ngb iteration 21: need to repeat for 0000053421 particles. (took 0.224148 sec)
ngb iteration 22: need to repeat for 0000027110 particles. (took 0.221782 sec)
ngb iteration 23: need to repeat for 0000013346 particles. (took 0.226456 sec)
ngb iteration 24: need to repeat for 0000006128 particles. (took 0.215977 sec)
ngb iteration 25: need to repeat for 0000002721 particles. (took 0.212739 sec)
ngb iteration 26: need to repeat for 0000001140 particles. (took 0.213243 sec)
ngb iteration 27: need to repeat for 0000000467 particles. (took 0.216974 sec)
ngb iteration 28: need to repeat for 0000000187 particles. (took 0.21554 sec)
ngb iteration 29: need to repeat for 0000000064 particles. (took 0.212029 sec)
ngb iteration 30: need to repeat for 0000000018 particles. (took 0.209683 sec)
ngb iteration 31: need to repeat for 0000000006 particles. (took 0.209492 sec)
ngb iteration 32: need to repeat for 0000000003 particles. (took 0.209457 sec)
ngb iteration 33: need to repeat for 0000000001 particles. (took 0.209186 sec)
final operations ... 
density and smoothing length for species 1 took 577.463 sec
Tree construction.
tree build took 7.10485 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 2.41396 sec
Tree construction.
tree build took 7.08249 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 2.43597 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.089546 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 13.425 sec
Tree construction for species 1 (2124916242).
tree build for species 1 took 7.12654 sec
density() of species 1 took 9.53674e-07 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.0887258 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 13.4757 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.0637779 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 13.5002 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 6.87895 sec
saving densities took 10.8518 sec

Number of FOF halos treated with collective SubFind code = 4
(the adopted size-limit for the collective algorithm was 40719852 particles.)
the other 1265414 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 283080 - 737255241 

subfind_exchange()() took 6.93662 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=35281.6 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=35784.1 MB)
determining substructure properties took 866.298 sec (presently allocated 18737.9 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 35784.1 Mbyte (on task=0), Smallest = 19175.2 Mbyte, Average = 19794.7 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     55.4764      57.4321  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    221.9056     279.3377  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    221.9056     501.2433  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    221.9056     723.1489  allocate_memory()/allocate.c/61
   0 2969 0                 P  16421.0134   17144.1623  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      5.1599   17149.3847  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList    380.5716   17529.9562  fof_fof()/fof.c/249
   0 2974 0         FOF_GList    634.2859   18164.2422  fof_fof()/fof.c/337
   0 2975 0             Group     11.6450   18175.8871  fof_fof()/fof.c/380
   0 2976 0          SubGroup  17105.7599   35281.6470  subfind()/subfind.c/376
   0 2979 0          TopNodes     23.0782   35304.7877  domain_allocate()/domain.c/570
   0 2980 0        domain_key    443.8112   35748.5989  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      1.7752   35750.3800  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      1.7752   35752.1553  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      1.7752   35753.9305  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      1.7752   35755.7058  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      1.7752   35757.4830  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      1.7752   35759.2602  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     24.8534   35784.1136  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=64905
After=84937
NTopleaves= 74320  NTopnodes=84937 (space for 465370)
gravity work-load balance=1.00052   memory-balance=1.00052   SPH work-load balance=0

collectively doing halo 2, num=11
iter=0 exchange of 0151734100 particles (ret=0)
domain decomposition done. (took 6.36222 sec)
Freed 17.4148 MByte in top-level domain structure
------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     55.4764      57.4321  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    221.9056     279.3377  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    221.9056     501.2433  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    221.9056     723.1489  allocate_memory()/allocate.c/61
   0 2969 0                 P  16421.0134   17144.1623  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      5.1599   17149.3847  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList    380.5716   17529.9562  fof_fof()/fof.c/249
   0 2974 0         FOF_GList    634.2859   18164.2422  fof_fof()/fof.c/337
   0 2975 0             Group     11.6450   18175.8871  fof_fof()/fof.c/380
   0 2976 0          SubGroup  17105.7599   35281.6470  subfind()/subfind.c/376
   0 2979 0          TopNodes      4.2121   35285.9217  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.2835   35286.2052  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base   3735.7901   39021.9953  force_treeallocate()/forcetree.c/4803
----------------------------------------------------------------------------------------

Task=0: Not enough memory in mymalloc_fullinfo() to allocate 3113.16 MB for variable 'Extnodes_base' at force_treeallocate()/forcetree.c/line 4811 (FreeBytes=978.005 MB).
task 0: endrun called with an error level of 812


Rank 0 [Thu Sep 10 09:47:41 2015] [c3-0c1s3n0] application called MPI_Abort(MPI_COMM_WORLD, 812) - process 0
_pmiu_daemon(SIGCHLD): [NID 00652] [c3-0c1s3n0] [Thu Sep 10 09:47:43 2015] PE RANK 0 exit signal Aborted
[NID 00652] 2015-09-10 09:47:43 Apid 1876804: initiated application termination
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=15045.8 MB)
Allocated 15.1259 MByte for top-level domain structure
use of 245.003 MB of temporary storage for domain decomposition... (presently allocated=15305.9 MB)
Before=144697
After=169217
NTopleaves= 148065  NTopnodes=169217 (space for 302491)
gravity work-load balance=1.00049   memory-balance=1.00049   SPH work-load balance=0
Application 1876804 exit codes: 134
Application 1876804 exit signals: Killed
Application 1876804 resources: utime ~1221s, stime ~18s, Rss ~13653200, inblocks ~8372241, outblocks ~2957531
iter=0 exchange of 0029224833 particles (ret=0)
domain decomposition done. (took 2.57349 sec)
Freed 6.1008 MByte in top-level domain structure
coldomain_Decomposition() took 4.36619 sec  (presently allocated=18723.1 MB)
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =  128967.59 Mb (on task=88), Smallest =  128960.12 Mb (on task=10), Average =  128963.37 Mb
Total Mem:	 Largest =  129069.07 Mb (on task=0), Smallest =  129069.07 Mb (on task=0), Average =  129069.07 Mb
Committed_AS:	 Largest =     108.95 Mb (on task=10), Smallest =     101.48 Mb (on task=88), Average =     105.70 Mb
SwapTotal:	 Largest =       0.00 Mb (on task=0), Smallest =       0.00 Mb (on task=0), Average =       0.00 Mb
SwapFree:	 Largest =       0.00 Mb (on task=0), Smallest =       0.00 Mb (on task=0), Average =       0.00 Mb
AllocMem:	 Largest =     108.95 Mb (on task=10), Smallest =     101.48 Mb (on task=88), Average =     105.70 Mb
-------------------------------------------------------------------------------------------
Using 1 OpenMP threads

This is P-Gadget, version 3.0.

Running on 128 MPI tasks.

Using 1 OpenMP threads

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
        NOCALLSOFSYSTEM
svn version:exported

Size of particle structure       296  [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.N3':
RunLabel                           "HaloF22_DM-N1024_ID67"
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                      /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/
YieldTablePath                     /zhome/academic/HLRS/xap/xapybahe/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         0
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         40000
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                 /zhome/academic/HLRS/xap/xapybahe/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /zhome/academic/HLRS/xap/xapybahe/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 17142.2 MByte for particle storage.


reading file `data//snapshot_026_z000p101/snap_026_z000p101.0.hdf5' on task=0 (contains 132936583 particles.)
distributing this file to tasks 0-7
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  132687050  (tot=     2124916242) masstab=0.000779539
Type 2 (disk):      9667  (tot=     0000134208) masstab=0
Type 3 (bulge):   239866  (tot=     0002354161) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

force_treebuild() took 10.2916 sec (presently allocated=18723.1 MB)
Start find_linkngb (114603 particles on task=0)
find linkngb iteration 1: need to repeat for 0024753803 particles. (took 1.53261 sec)
find linkngb iteration 2: need to repeat for 0021518322 particles. (took 0.920042 sec)
find linkngb iteration 3: need to repeat for 0020468434 particles. (took 0.643255 sec)
find linkngb iteration 4: need to repeat for 0017717095 particles. (took 0.739974 sec)
find linkngb iteration 5: need to repeat for 0014650077 particles. (took 0.600576 sec)
find linkngb iteration 6: need to repeat for 0010575992 particles. (took 0.557265 sec)
find linkngb iteration 7: need to repeat for 0006636040 particles. (took 0.3989 sec)
find linkngb iteration 8: need to repeat for 0003765684 particles. (took 0.252709 sec)
find linkngb iteration 9: need to repeat for 0002014359 particles. (took 0.153389 sec)
find linkngb iteration 10: need to repeat for 0001043882 particles. (took 0.0959182 sec)
find linkngb iteration 11: need to repeat for 0000530182 particles. (took 0.065814 sec)
find linkngb iteration 12: need to repeat for 0000109742 particles. (took 0.0402491 sec)
find linkngb iteration 13: need to repeat for 0000001617 particles. (took 0.0149181 sec)
find linkngb iteration 14: need to repeat for 0000000288 particles. (took 0.00150895 sec)
find linkngb iteration 15: need to repeat for 0000000048 particles. (took 0.00103307 sec)
find linkngb iteration 16: need to repeat for 0000000013 particles. (took 0.000748158 sec)
find_linkngb() took 6.02025 sec
Start finding nearest two (114603 particles on task=0)
find_nearesttwo() took 0.981161 sec (presently allocated=18731.9 MB)
parallel sort of densities done. took 0.0836842 sec
building distributed linked list. (presently allocated 18730.8 MB)
 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  2127404611


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=5.59787 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=17144.2 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=17646.6 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 17646.6 Mbyte (on task=1), Smallest = 17646.6 Mbyte, Average = 17646.6 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2965 0     ProcessedFlag     55.4764      57.4332  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle    221.9056     279.3388  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin    221.9056     501.2444  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin    221.9056     723.1499  allocate_memory()/allocate.c/61
   1 2969 0                 P  16421.0134   17144.1633  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes     23.0782   17167.3040  domain_allocate()/domain.c/570
   1 2973 0        domain_key    443.8112   17611.1152  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      1.7752   17612.8963  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      1.7752   17614.6715  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      1.7752   17616.4468  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      1.7752   17618.2220  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      1.7752   17619.9992  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      1.7752   17621.7764  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes     24.8534   17646.6299  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=102409
After=103001
NTopleaves= 90126  NTopnodes=103001 (space for 465370)
gravity work-load balance=1.00039   memory-balance=1.00038   SPH work-load balance=0
iter=0 exchange of 2111067432 particles (ret=0)
domain decomposition done. (took 29.5105 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 16.5879 MByte in top-level domain structure

Allocated 7296.18 MByte for BH-tree, and 0.343803 Mbyte for top-leaves.  (presently allocted 24445.9 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 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 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 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 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 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 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 predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 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 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 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 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 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 predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...
Ngb-Tree contruction finished 
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities 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 = 24788.7 Mbyte (on task=31), Smallest = 24788.3 Mbyte, Average = 24788.6 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  31 2965 0     ProcessedFlag     55.4764      57.4332  allocate_memory()/allocate.c/52
  31 2966 0  NextActiveParticle    221.9056     279.3388  allocate_memory()/allocate.c/55
  31 2967 0     NextInTimeBin    221.9056     501.2444  allocate_memory()/allocate.c/58
  31 2968 0     PrevInTimeBin    221.9056     723.1499  allocate_memory()/allocate.c/61
  31 2969 0                 P  16421.0134   17144.1633  allocate_memory()/allocate.c/67
  31 2972 0          TopNodes      5.1079   17149.3338  domain_allocate()/domain.c/570
  31 2973 0   DomainNodeIndex      0.3438   17149.6776  force_treeallocate()/forcetree.c/4800
  31 2974 0        Nodes_base   3737.4439   20887.1215  force_treeallocate()/forcetree.c/4803
  31 2975 0     Extnodes_base   3114.5366   24001.6581  force_treeallocate()/forcetree.c/4811
  31 2976 0          Nextnode    222.2985   24223.9566  force_treeallocate()/forcetree.c/4820
  31 2977 0            Father    221.9056   24445.8622  force_treeallocate()/forcetree.c/4827
  31 2978 0           Ngblist     63.4259   24509.2881  density()/density.c/690
  31 2979 0              Left    126.8519   24636.1400  density()/density.c/692
  31 2980 0             Right    126.8519   24762.9918  density()/density.c/693
  31 2981 0    DataIndexTable      7.0175   24770.0094  density()/density.c/738
  31 2982 0      DataNodeList     18.7134   24788.7228  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/z_0.049.hdf5
GetCoolingTables: Redshift 2 /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/z_0.101.hdf5

Begin to compute FoF group catalogues...  (presently allocated=24445.9 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=17144.2 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=17646.6 MB)
Before=93361
After=103697
NTopleaves= 90735  NTopnodes=103697 (space for 465370)
gravity work-load balance=1.00046   memory-balance=1.00047   SPH work-load balance=0
iter=0 exchange of 2110986961 particles (ret=0)
domain decomposition done. (took 23.9859 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 16.5561 MByte in top-level domain structure

Comoving linking length: 0.00901189    (presently allocated=17149.4 MB)
Tree construction.

Start linking particles (presently allocated=25206.1 MB)
links on local processor done (took 172.018 sec).
Marked=0234304309 out of the 2124916242 primaries which are linked

linking across processors (presently allocated=25530 MB) 
have done 0002952660 cross links (processed 0234304309, took 24.642 sec)
have done 0001309047 cross links (processed 0196236112, took 24.2713 sec)
have done 0000950945 cross links (processed 0167915316, took 19.6667 sec)
have done 0000642694 cross links (processed 0116159586, took 18.0008 sec)
have done 0000423022 cross links (processed 0069768276, took 16.3917 sec)
have done 0000275124 cross links (processed 0044341742, took 15.7887 sec)
have done 0000173132 cross links (processed 0021106368, took 8.08178 sec)
have done 0000096137 cross links (processed 0008390834, took 9.02147 sec)
have done 0000054437 cross links (processed 0003709998, took 1.69744 sec)
have done 0000028954 cross links (processed 0001617436, took 2.23351 sec)
have done 0000013844 cross links (processed 0000461373, took 0.367754 sec)
have done 0000008275 cross links (processed 0001177975, took 2.41196 sec)
have done 0000005207 cross links (processed 0000784328, took 1.61305 sec)
have done 0000001794 cross links (processed 0000040934, took 0.252489 sec)
have done 0000000780 cross links (processed 0000031803, took 0.255461 sec)
have done 0000000389 cross links (processed 0000007511, took 0.218417 sec)
have done 0000000194 cross links (processed 0000002581, took 0.20871 sec)
have done 0000000119 cross links (processed 0000001696, took 0.21327 sec)
have done 0000000074 cross links (processed 0000001278, took 0.2135 sec)
have done 0000000048 cross links (processed 0000000800, took 0.210757 sec)
have done 0000000016 cross links (processed 0000000274, took 0.208956 sec)
have done 0000000007 cross links (processed 0000000063, took 0.208749 sec)
have done 0000000003 cross links (processed 0000000026, took 0.209065 sec)
have done 0000000000 cross links (processed 0000000007, took 0.214148 sec)
Local groups found.

group finding took = 319.361 sec
Start finding nearest dm-particle (presently allocated=25206.1 MB)
still finding nearest... (presently allocated=25473.4 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.559289 sec
compiling local group data and catalogue took = 6.38547 sec

Total number of groups with at least 32 particles: 1273286
Largest group has 140958548 particles.
Total number of particles in groups: 1308288697

group properties are now allocated.. (presently allocated=18175.3 MB)
computation of group properties took = 0.646057 sec
start global sorting of group catalogues number 26
LargestGroup = 109882.685190; SmallestGroup = 0.024945
tagging gas particles with halo masses took = 0.303587 sec
Group catalogues globally sorted. took = 5.31261 sec
starting saving of group catalogue number 26
data//groups_026_z000p101
identification of primary candidates took 456.293 sec
adding background as candidate took 0.251391 sec
Group catalogues number 26 saved. took = 15.4131 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 7.16773 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 2.52277 sec
Tree construction for species 1 (2124916242).
tree build for species 1 took 7.12693 sec
finding densities, mode 1 
establishing of rank order took 108.455 sec  (p=29335096, grouplen=29335096) presently allocated 18730.8 MB

total number of subhalo candidates=131005

number of subhalo candidates that can be done independently=113857.
(Largest size is 4163, finding them took 0.0533209 sec)
particles are marked (took 130.44)
independent subhalos are assembled on individual CPUs for unbinding (0.505172 sec, (presently allocated=18730.8 MB)
unbinding of independent ones took 0.150011 sec
particles have returned to their original processor (0.683762 sec, presently allocated 18730.8 MB)

number of subhalo candidates that can be done independently=15270.
(Largest size is 17495, finding them took 5.7219 sec)
particles are marked (took 48.1907)
independent subhalos are assembled on individual CPUs for unbinding (0.489509 sec, (presently allocated=18730.8 MB)
unbinding of independent ones took 0.5828 sec
particles have returned to their original processor (0.666169 sec, presently allocated 18730.8 MB)
ngb iteration 1: need to repeat for 1191154448 particles. (took 290.941 sec)

number of subhalo candidates that can be done independently=1657.
(Largest size is 124544, finding them took 5.69197 sec)
particles are marked (took 29.4877)
independent subhalos are assembled on individual CPUs for unbinding (0.474301 sec, (presently allocated=18730.8 MB)
unbinding of independent ones took 8.41897 sec
particles have returned to their original processor (0.671355 sec, presently allocated 18730.8 MB)

number of subhalo candidates that can be done independently=192.
(Largest size is 215546, finding them took 5.45545 sec)
particles are marked (took 31.1023)
independent subhalos are assembled on individual CPUs for unbinding (0.472955 sec, (presently allocated=18730.8 MB)
unbinding of independent ones took 11.2188 sec
particles have returned to their original processor (0.664476 sec, presently allocated 18730.8 MB)

number of subhalo candidates that can be done independently=22.
(Largest size is 1274319, finding them took 4.37562 sec)
ngb iteration 2: need to repeat for 0623504656 particles. (took 116.624 sec)
particles are marked (took 20.4928)
independent subhalos are assembled on individual CPUs for unbinding (0.486971 sec, (presently allocated=18730.8 MB)
unbinding of independent ones took 19.8907 sec
particles have returned to their original processor (0.679725 sec, presently allocated 18730.8 MB)

number of subhalo candidates that can be done independently=4.
(Largest size is 1559449, finding them took 3.02203 sec)
particles are marked (took 11.0105)
independent subhalos are assembled on individual CPUs for unbinding (0.462874 sec, (presently allocated=18730.8 MB)
ngb iteration 3: need to repeat for 0467272913 particles. (took 54.3584 sec)
unbinding of independent ones took 6.60172 sec
particles have returned to their original processor (0.657236 sec, presently allocated 18730.8 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 1559449, finding them took 3.01829 sec)
too few, I do the rest of 3 collectively

collective unbinding of nr=0 (3) of length=1559449 ... maximum alloacted 18731.2 MB
took 13.8372 sec
ngb iteration 4: need to repeat for 0397984989 particles. (took 34.2857 sec)
collective unbinding of nr=1 (3) of length=1274319 ... maximum alloacted 18731.2 MB
ngb iteration 5: need to repeat for 0346095424 particles. (took 25.9375 sec)
took 32.6851 sec
collective unbinding of nr=2 (3) of length=29335096 ... ngb iteration 6: need to repeat for 0282831509 particles. (took 21.5511 sec)
ngb iteration 7: need to repeat for 0208220491 particles. (took 17.4721 sec)
ngb iteration 8: need to repeat for 0138745375 particles. (took 12.2926 sec)
ngb iteration 9: need to repeat for 0085885394 particles. (took 8.35156 sec)
ngb iteration 10: need to repeat for 0050696188 particles. (took 5.51344 sec)
ngb iteration 11: need to repeat for 0029118614 particles. (took 3.59381 sec)
ngb iteration 12: need to repeat for 0016514634 particles. (took 2.37931 sec)
ngb iteration 13: need to repeat for 0009337865 particles. (took 1.64022 sec)
ngb iteration 14: need to repeat for 0004919201 particles. (took 1.11223 sec)
ngb iteration 15: need to repeat for 0002141576 particles. (took 0.752627 sec)
ngb iteration 16: need to repeat for 0001107200 particles. (took 0.455512 sec)
ngb iteration 17: need to repeat for 0000608219 particles. (took 0.333934 sec)
ngb iteration 18: need to repeat for 0000341877 particles. (took 0.280137 sec)
ngb iteration 19: need to repeat for 0000191776 particles. (took 0.250772 sec)
ngb iteration 20: need to repeat for 0000104833 particles. (took 0.234813 sec)
ngb iteration 21: need to repeat for 0000055631 particles. (took 0.228005 sec)
ngb iteration 22: need to repeat for 0000028360 particles. (took 0.22139 sec)
ngb iteration 23: need to repeat for 0000014010 particles. (took 0.215014 sec)
ngb iteration 24: need to repeat for 0000006619 particles. (took 0.212736 sec)
ngb iteration 25: need to repeat for 0000002993 particles. (took 0.212281 sec)
ngb iteration 26: need to repeat for 0000001261 particles. (took 0.212782 sec)
ngb iteration 27: need to repeat for 0000000478 particles. (took 0.214663 sec)
ngb iteration 28: need to repeat for 0000000155 particles. (took 0.21402 sec)
ngb iteration 29: need to repeat for 0000000058 particles. (took 0.212378 sec)
ngb iteration 30: need to repeat for 0000000010 particles. (took 0.216195 sec)
final operations ... 
density and smoothing length for species 1 took 604.45 sec
Tree construction.
tree build took 7.08326 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 2.42948 sec
Tree construction.
tree build took 7.06523 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 2.43531 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.0743511 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 13.446 sec
Tree construction for species 1 (2124916242).
tree build for species 1 took 7.08321 sec
density() of species 1 took 0 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.088331 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 13.4841 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.0781209 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 13.4309 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 6.85155 sec
saving densities took 10.4057 sec

Number of FOF halos treated with collective SubFind code = 4
(the adopted size-limit for the collective algorithm was 40719852 particles.)
the other 1273282 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 265152 - 757732070 

subfind_exchange()() took 6.97019 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=34006.3 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=34508.8 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 34508.8 Mbyte (on task=0), Smallest = 19186.4 Mbyte, Average = 19789 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     55.4764      57.4321  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    221.9056     279.3377  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    221.9056     501.2433  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    221.9056     723.1489  allocate_memory()/allocate.c/61
   0 2969 0                 P  16421.0134   17144.1623  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      5.1424   17149.3672  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList    380.0660   17529.4333  fof_fof()/fof.c/249
   0 2974 0         FOF_GList    633.4434   18162.8766  fof_fof()/fof.c/337
   0 2975 0             Group     12.4211   18175.2977  fof_fof()/fof.c/380
   0 2976 0          SubGroup  15831.0398   34006.3376  subfind()/subfind.c/376
   0 2979 0          TopNodes     23.0782   34029.4782  domain_allocate()/domain.c/570
   0 2980 0        domain_key    443.8112   34473.2894  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      1.7752   34475.0705  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      1.7752   34476.8458  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      1.7752   34478.6210  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      1.7752   34480.3963  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      1.7752   34482.1735  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      1.7752   34483.9507  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     24.8534   34508.8041  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=67681
After=85145
NTopleaves= 74502  NTopnodes=85145 (space for 465370)
gravity work-load balance=1.00077   memory-balance=1.00077   SPH work-load balance=0
iter=0 exchange of 0139711430 particles (ret=0)
domain decomposition done. (took 6.3485 sec)
Freed 17.4053 MByte in top-level domain structure
------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     55.4764      57.4321  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    221.9056     279.3377  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    221.9056     501.2433  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    221.9056     723.1489  allocate_memory()/allocate.c/61
   0 2969 0                 P  16421.0134   17144.1623  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      5.1424   17149.3672  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList    380.0660   17529.4333  fof_fof()/fof.c/249
   0 2974 0         FOF_GList    633.4434   18162.8766  fof_fof()/fof.c/337
   0 2975 0             Group     12.4211   18175.2977  fof_fof()/fof.c/380
   0 2976 0          SubGroup  15831.0398   34006.3376  subfind()/subfind.c/376
   0 2979 0          TopNodes      4.2224   34010.6225  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.2842   34010.9067  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base   3735.8091   37746.7158  force_treeallocate()/forcetree.c/4803
----------------------------------------------------------------------------------------

Task=0: Not enough memory in mymalloc_fullinfo() to allocate 3113.17 MB for variable 'Extnodes_base' at force_treeallocate()/forcetree.c/line 4811 (FreeBytes=2253.28 MB).
task 0: endrun called with an error level of 812


Rank 0 [Thu Sep 10 10:08:00 2015] [c0-0c1s15n3] application called MPI_Abort(MPI_COMM_WORLD, 812) - process 0
_pmiu_daemon(SIGCHLD): [NID 00127] [c0-0c1s15n3] [Thu Sep 10 10:08:02 2015] PE RANK 0 exit signal Aborted
[NID 00127] 2015-09-10 10:08:03 Apid 1876817: initiated application termination
Application 1876817 exit codes: 134
Application 1876817 exit signals: Killed
Application 1876817 resources: utime ~1191s, stime ~18s, Rss ~13354236, inblocks ~8183463, outblocks ~2956688
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =  128965.34 Mb (on task=76), Smallest =  128960.42 Mb (on task=20), Average =  128962.85 Mb
Total Mem:	 Largest =  129069.07 Mb (on task=0), Smallest =  129069.07 Mb (on task=0), Average =  129069.07 Mb
Committed_AS:	 Largest =     108.64 Mb (on task=20), Smallest =     103.73 Mb (on task=76), Average =     106.21 Mb
SwapTotal:	 Largest =       0.00 Mb (on task=0), Smallest =       0.00 Mb (on task=0), Average =       0.00 Mb
SwapFree:	 Largest =       0.00 Mb (on task=0), Smallest =       0.00 Mb (on task=0), Average =       0.00 Mb
AllocMem:	 Largest =     108.64 Mb (on task=20), Smallest =     103.73 Mb (on task=76), Average =     106.21 Mb
-------------------------------------------------------------------------------------------
Using 1 OpenMP threads

This is P-Gadget, version 3.0.

Running on 128 MPI tasks.

Using 1 OpenMP threads

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
        NOCALLSOFSYSTEM
svn version:exported

Size of particle structure       296  [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.N3':
RunLabel                           "HaloF22_DM-N1024_ID67"
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                      /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/
YieldTablePath                     /zhome/academic/HLRS/xap/xapybahe/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         0
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         40000
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                 /zhome/academic/HLRS/xap/xapybahe/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /zhome/academic/HLRS/xap/xapybahe/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 17142.2 MByte for particle storage.


reading file `data//snapshot_025_z000p113/snap_025_z000p113.0.hdf5' on task=0 (contains 134499140 particles.)
distributing this file to tasks 0-7
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  134171969  (tot=     2124916242) masstab=0.000779539
Type 2 (disk):      9893  (tot=     0000134208) masstab=0
Type 3 (bulge):   317278  (tot=     0002354161) 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 :  2127404611


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=5.54888 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=17144.2 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=17646.6 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 17646.6 Mbyte (on task=1), Smallest = 17646.6 Mbyte, Average = 17646.6 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2965 0     ProcessedFlag     55.4764      57.4332  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle    221.9056     279.3388  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin    221.9056     501.2444  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin    221.9056     723.1499  allocate_memory()/allocate.c/61
   1 2969 0                 P  16421.0134   17144.1633  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes     23.0782   17167.3040  domain_allocate()/domain.c/570
   1 2973 0        domain_key    443.8112   17611.1152  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      1.7752   17612.8963  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      1.7752   17614.6715  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      1.7752   17616.4468  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      1.7752   17618.2220  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      1.7752   17619.9992  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      1.7752   17621.7764  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes     24.8534   17646.6299  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
maximum alloacted 18731.2 MB
Before=103353
After=104065
NTopleaves= 91057  NTopnodes=104065 (space for 465370)
gravity work-load balance=1.00035   memory-balance=1.00036   SPH work-load balance=0
iter=0 exchange of 2112803555 particles (ret=0)
domain decomposition done. (took 28.8114 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 16.5392 MByte in top-level domain structure

Allocated 7296.37 MByte for BH-tree, and 0.347355 Mbyte for top-leaves.  (presently allocted 24446.1 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 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 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 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 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 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 predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get 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 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...
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 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 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 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...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 24789 Mbyte (on task=70), Smallest = 24788.4 Mbyte, Average = 24788.8 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  70 2965 0     ProcessedFlag     55.4764      57.4332  allocate_memory()/allocate.c/52
  70 2966 0  NextActiveParticle    221.9056     279.3388  allocate_memory()/allocate.c/55
  70 2967 0     NextInTimeBin    221.9056     501.2444  allocate_memory()/allocate.c/58
  70 2968 0     PrevInTimeBin    221.9056     723.1499  allocate_memory()/allocate.c/61
  70 2969 0                 P  16421.0134   17144.1633  allocate_memory()/allocate.c/67
  70 2972 0          TopNodes      5.1607   17149.3865  domain_allocate()/domain.c/570
  70 2973 0   DomainNodeIndex      0.3474   17149.7339  force_treeallocate()/forcetree.c/4800
  70 2974 0        Nodes_base   3737.5413   20887.2752  force_treeallocate()/forcetree.c/4803
  70 2975 0     Extnodes_base   3114.6178   24001.8930  force_treeallocate()/forcetree.c/4811
  70 2976 0          Nextnode    222.3026   24224.1955  force_treeallocate()/forcetree.c/4820
  70 2977 0            Father    221.9056   24446.1011  force_treeallocate()/forcetree.c/4827
  70 2978 0           Ngblist     63.4242   24509.5253  density()/density.c/690
  70 2979 0              Left    126.8484   24636.3738  density()/density.c/692
  70 2980 0             Right    126.8484   24763.2222  density()/density.c/693
  70 2981 0    DataIndexTable      7.0175   24770.2398  density()/density.c/738
  70 2982 0      DataNodeList     18.7134   24788.9532  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/z_0.101.hdf5
GetCoolingTables: Redshift 2 /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/z_0.155.hdf5

Begin to compute FoF group catalogues...  (presently allocated=24446.1 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=17144.2 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=17646.6 MB)
Before=94497
After=104713
NTopleaves= 91624  NTopnodes=104713 (space for 465370)
gravity work-load balance=1.00064   memory-balance=1.00065   SPH work-load balance=0
iter=0 exchange of 2110248087 particles (ret=0)
took 294.715 sec

the collective unbinding of remaining halos took 351.357 sec

found 10417 bound substructures in FoF group of length 29335096
determination of parent subhalo took 0.081049 sec (presently allocated 18731.2 MB)
domain decomposition done. (took 24.2969 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 16.5096 MByte in top-level domain structure

Comoving linking length: 0.00901189    (presently allocated=17149.4 MB)
Tree construction.

Start linking particles (presently allocated=25205.5 MB)
links on local processor done (took 169.493 sec).
Marked=0233166990 out of the 2124916242 primaries which are linked

linking across processors (presently allocated=25529 MB) 
have done 0002946016 cross links (processed 0233166990, took 23.686 sec)
have done 0001314498 cross links (processed 0194920676, took 21.8663 sec)
have done 0000951011 cross links (processed 0168008693, took 20.8465 sec)
have done 0000637130 cross links (processed 0111459722, took 17.2955 sec)
have done 0000420389 cross links (processed 0075914667, took 14.0868 sec)
have done 0000258319 cross links (processed 0036274980, took 12.889 sec)
have done 0000148228 cross links (processed 0019310894, took 4.52862 sec)
have done 0000075004 cross links (processed 0013189859, took 12.0732 sec)
have done 0000040818 cross links (processed 0007607903, took 9.82522 sec)
have done 0000022719 cross links (processed 0000841187, took 0.692155 sec)
have done 0000012879 cross links (processed 0000388305, took 1.37144 sec)
have done 0000010122 cross links (processed 0000228774, took 0.558098 sec)
have done 0000005373 cross links (processed 0000166304, took 0.901522 sec)
have done 0000002397 cross links (processed 0000046011, took 0.233872 sec)
have done 0000000978 cross links (processed 0000014799, took 0.210621 sec)
have done 0000000331 cross links (processed 0000004599, took 0.208683 sec)
have done 0000000128 cross links (processed 0000001521, took 0.207867 sec)
have done 0000000045 cross links (processed 0000000570, took 0.207585 sec)
have done 0000000020 cross links (processed 0000000203, took 0.206982 sec)
have done 0000000005 cross links (processed 0000000076, took 0.20724 sec)
have done 0000000001 cross links (processed 0000000017, took 0.206036 sec)
have done 0000000000 cross links (processed 0000000005, took 0.207049 sec)
Local groups found.

group finding took = 312.701 sec
Start finding nearest dm-particle (presently allocated=25205.5 MB)
still finding nearest... (presently allocated=25472.5 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.547564 sec
compiling local group data and catalogue took = 6.47045 sec

Total number of groups with at least 32 particles: 1275466
Largest group has 139892247 particles.
Total number of particles in groups: 1305468897

group properties are now allocated.. (presently allocated=18174.1 MB)
computation of group properties took = 0.642109 sec
start global sorting of group catalogues number 25
LargestGroup = 109051.461977; SmallestGroup = 0.024945
tagging gas particles with halo masses took = 0.293002 sec
Group catalogues globally sorted. took = 5.1683 sec
starting saving of group catalogue number 25
data//groups_025_z000p113
Group catalogues number 25 saved. took = 15.5248 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 7.19714 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 2.53167 sec
Tree construction for species 1 (2124916242).
tree build for species 1 took 7.11887 sec
finding densities, mode 1 
determining substructure properties took 432.017 sec (presently allocated 18731.2 MB)

collectively doing halo 3, num=11
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=15045.8 MB)
Allocated 15.1259 MByte for top-level domain structure
use of 245.003 MB of temporary storage for domain decomposition... (presently allocated=15305.9 MB)
Before=144649
After=168185
NTopleaves= 147162  NTopnodes=168185 (space for 302491)
gravity work-load balance=1.00044   memory-balance=1.00044   SPH work-load balance=0
iter=0 exchange of 0022510339 particles (ret=0)
domain decomposition done. (took 2.59488 sec)
Freed 6.14804 MByte in top-level domain structure
coldomain_Decomposition() took 4.40032 sec  (presently allocated=18722.9 MB)
force_treebuild() took 10.4087 sec (presently allocated=18722.9 MB)
Start find_linkngb (88324 particles on task=0)
find linkngb iteration 1: need to repeat for 0019944837 particles. (took 1.14033 sec)
find linkngb iteration 2: need to repeat for 0017557950 particles. (took 0.738593 sec)
find linkngb iteration 3: need to repeat for 0016709478 particles. (took 0.506625 sec)
find linkngb iteration 4: need to repeat for 0014502232 particles. (took 0.57856 sec)
find linkngb iteration 5: need to repeat for 0012006691 particles. (took 0.487765 sec)
find linkngb iteration 6: need to repeat for 0008675475 particles. (took 0.396274 sec)
find linkngb iteration 7: need to repeat for 0005447503 particles. (took 0.30479 sec)
find linkngb iteration 8: need to repeat for 0003093389 particles. (took 0.207462 sec)
find linkngb iteration 9: need to repeat for 0001653780 particles. (took 0.131265 sec)
find linkngb iteration 10: need to repeat for 0000856010 particles. (took 0.093657 sec)
find linkngb iteration 11: need to repeat for 0000435182 particles. (took 0.0587451 sec)
find linkngb iteration 12: need to repeat for 0000090960 particles. (took 0.040828 sec)
find linkngb iteration 13: need to repeat for 0000001204 particles. (took 0.00820088 sec)
find linkngb iteration 14: need to repeat for 0000000186 particles. (took 0.00172687 sec)
find linkngb iteration 15: need to repeat for 0000000023 particles. (took 0.000478983 sec)
find linkngb iteration 16: need to repeat for 0000000001 particles. (took 0.00049901 sec)
find_linkngb() took 4.69687 sec
Start finding nearest two (88324 particles on task=0)
find_nearesttwo() took 0.776108 sec (presently allocated=18729.7 MB)
parallel sort of densities done. took 0.091042 sec
building distributed linked list. (presently allocated 18728.8 MB)
ngb iteration 1: need to repeat for 1190659743 particles. (took 268.376 sec)
ngb iteration 2: need to repeat for 0624727766 particles. (took 114.504 sec)
ngb iteration 3: need to repeat for 0468045607 particles. (took 52.8391 sec)
identification of primary candidates took 354.537 sec
adding background as candidate took 0.21666 sec
ngb iteration 4: need to repeat for 0398574188 particles. (took 33.1641 sec)
ngb iteration 5: need to repeat for 0346706274 particles. (took 25.5072 sec)
ngb iteration 6: need to repeat for 0283421705 particles. (took 21.5984 sec)
establishing of rank order took 87.46 sec  (p=22602863, grouplen=22602863) presently allocated 18728.8 MB

total number of subhalo candidates=100995

number of subhalo candidates that can be done independently=87723.
(Largest size is 2662, finding them took 0.0387301 sec)
ngb iteration 7: need to repeat for 0208784754 particles. (took 17.4587 sec)
ngb iteration 8: need to repeat for 0139206400 particles. (took 12.4595 sec)
ngb iteration 9: need to repeat for 0086208940 particles. (took 8.47673 sec)
ngb iteration 10: need to repeat for 0050899965 particles. (took 5.57944 sec)
ngb iteration 11: need to repeat for 0029238896 particles. (took 3.70612 sec)
ngb iteration 12: need to repeat for 0016580172 particles. (took 2.41938 sec)
ngb iteration 13: need to repeat for 0009379415 particles. (took 1.64534 sec)
ngb iteration 14: need to repeat for 0004942871 particles. (took 1.16995 sec)
ngb iteration 15: need to repeat for 0002156101 particles. (took 0.748745 sec)
ngb iteration 16: need to repeat for 0001113130 particles. (took 0.455246 sec)
ngb iteration 17: need to repeat for 0000611218 particles. (took 0.332309 sec)
ngb iteration 18: need to repeat for 0000342580 particles. (took 0.282336 sec)
ngb iteration 19: need to repeat for 0000191840 particles. (took 0.261099 sec)
ngb iteration 20: need to repeat for 0000105237 particles. (took 0.238673 sec)
ngb iteration 21: need to repeat for 0000055884 particles. (took 0.232535 sec)
ngb iteration 22: need to repeat for 0000028600 particles. (took 0.219361 sec)
ngb iteration 23: need to repeat for 0000014125 particles. (took 0.217813 sec)
ngb iteration 24: need to repeat for 0000006695 particles. (took 0.215756 sec)
ngb iteration 25: need to repeat for 0000003043 particles. (took 0.213613 sec)
ngb iteration 26: need to repeat for 0000001282 particles. (took 0.210897 sec)
ngb iteration 27: need to repeat for 0000000515 particles. (took 0.209628 sec)
ngb iteration 28: need to repeat for 0000000182 particles. (took 0.210106 sec)
ngb iteration 29: need to repeat for 0000000062 particles. (took 0.208977 sec)
ngb iteration 30: need to repeat for 0000000012 particles. (took 0.209553 sec)
ngb iteration 31: need to repeat for 0000000003 particles. (took 0.20982 sec)
final operations ... 
density and smoothing length for species 1 took 577.487 sec
Tree construction.
tree build took 7.10094 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 2.44627 sec
Tree construction.
tree build took 7.07721 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 2.42952 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.0880198 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 13.2628 sec
Tree construction for species 1 (2124916242).
tree build for species 1 took 7.119 sec
density() of species 1 took 0 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.0773251 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 13.3072 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.083564 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
particles are marked (took 103.024)
independent subhalos are assembled on individual CPUs for unbinding (0.482842 sec, (presently allocated=18728.8 MB)
unbinding of independent ones took 0.0867178 sec
particles have returned to their original processor (0.733568 sec, presently allocated 18728.8 MB)
final operations ... 
density() of species 5 took 13.2849 sec
start saving smoothing lengths and densities

number of subhalo candidates that can be done independently=11905.
(Largest size is 19504, finding them took 5.67478 sec)
Sorting of densities in ID sequence took = 6.86051 sec
saving densities took 10.7623 sec

Number of FOF halos treated with collective SubFind code = 4
(the adopted size-limit for the collective algorithm was 40719852 particles.)
the other 1275462 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 257376 - 754874927 

subfind_exchange()() took 6.86794 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=33894.8 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=34397.3 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 34397.3 Mbyte (on task=0), Smallest = 19190.6 Mbyte, Average = 19786.7 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     55.4764      57.4321  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    221.9056     279.3377  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    221.9056     501.2433  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    221.9056     723.1489  allocate_memory()/allocate.c/61
   0 2969 0                 P  16421.0134   17144.1623  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      5.1928   17149.4176  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList    379.6103   17529.0279  fof_fof()/fof.c/249
   0 2974 0         FOF_GList    632.6838   18161.7117  fof_fof()/fof.c/337
   0 2975 0             Group     12.4273   18174.1390  fof_fof()/fof.c/380
   0 2976 0          SubGroup  15720.7032   33894.8422  subfind()/subfind.c/376
   0 2979 0          TopNodes     23.0782   33917.9829  domain_allocate()/domain.c/570
   0 2980 0        domain_key    443.8112   34361.7941  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      1.7752   34363.5752  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      1.7752   34365.3504  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      1.7752   34367.1257  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      1.7752   34368.9009  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      1.7752   34370.6781  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      1.7752   34372.4553  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     24.8534   34397.3088  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=66313
After=85897
NTopleaves= 75160  NTopnodes=85897 (space for 465370)
gravity work-load balance=1.00069   memory-balance=1.00069   SPH work-load balance=0
iter=0 exchange of 0138695499 particles (ret=0)
domain decomposition done. (took 6.20993 sec)
Freed 17.3709 MByte in top-level domain structure
------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     55.4764      57.4321  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    221.9056     279.3377  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    221.9056     501.2433  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    221.9056     723.1489  allocate_memory()/allocate.c/61
   0 2969 0                 P  16421.0134   17144.1623  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      5.1928   17149.4176  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList    379.6103   17529.0279  fof_fof()/fof.c/249
   0 2974 0         FOF_GList    632.6838   18161.7117  fof_fof()/fof.c/337
   0 2975 0             Group     12.4273   18174.1390  fof_fof()/fof.c/380
   0 2976 0          SubGroup  15720.7032   33894.8422  subfind()/subfind.c/376
   0 2979 0          TopNodes      4.2597   33899.1645  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.2867   33899.4512  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base   3735.8780   37635.3292  force_treeallocate()/forcetree.c/4803
----------------------------------------------------------------------------------------

Task=0: Not enough memory in mymalloc_fullinfo() to allocate 3113.23 MB for variable 'Extnodes_base' at force_treeallocate()/forcetree.c/line 4811 (FreeBytes=2364.67 MB).
task 0: endrun called with an error level of 812


Rank 0 [Thu Sep 10 10:27:45 2015] [c3-0c1s3n0] application called MPI_Abort(MPI_COMM_WORLD, 812) - process 0
_pmiu_daemon(SIGCHLD): [NID 00652] [c3-0c1s3n0] [Thu Sep 10 10:27:47 2015] PE RANK 0 exit signal Aborted
[NID 00652] 2015-09-10 10:27:47 Apid 1876857: initiated application termination
Application 1876857 exit codes: 134
Application 1876857 exit signals: Killed
Application 1876857 resources: utime ~1157s, stime ~17s, Rss ~13511308, inblocks ~8270072, outblocks ~2953917
particles are marked (took 35.8837)
independent subhalos are assembled on individual CPUs for unbinding (0.47808 sec, (presently allocated=18728.8 MB)
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =  128967.13 Mb (on task=88), Smallest =  128960.15 Mb (on task=82), Average =  128963.22 Mb
Total Mem:	 Largest =  129069.07 Mb (on task=0), Smallest =  129069.07 Mb (on task=0), Average =  129069.07 Mb
Committed_AS:	 Largest =     108.92 Mb (on task=82), Smallest =     101.93 Mb (on task=88), Average =     105.85 Mb
SwapTotal:	 Largest =       0.00 Mb (on task=0), Smallest =       0.00 Mb (on task=0), Average =       0.00 Mb
SwapFree:	 Largest =       0.00 Mb (on task=0), Smallest =       0.00 Mb (on task=0), Average =       0.00 Mb
AllocMem:	 Largest =     108.92 Mb (on task=82), Smallest =     101.93 Mb (on task=88), Average =     105.85 Mb
-------------------------------------------------------------------------------------------
Using 1 OpenMP threads

This is P-Gadget, version 3.0.

Running on 128 MPI tasks.

Using 1 OpenMP threads

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
        NOCALLSOFSYSTEM
svn version:exported

Size of particle structure       296  [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.N3':
RunLabel                           "HaloF22_DM-N1024_ID67"
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                      /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/
YieldTablePath                     /zhome/academic/HLRS/xap/xapybahe/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         0
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         40000
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                 /zhome/academic/HLRS/xap/xapybahe/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /zhome/academic/HLRS/xap/xapybahe/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 17142.2 MByte for particle storage.


reading file `data//snapshot_024_z000p155/snap_024_z000p155.0.hdf5' on task=0 (contains 134325771 particles.)
distributing this file to tasks 0-7
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  133957536  (tot=     2124916242) masstab=0.000779539
Type 2 (disk):      9657  (tot=     0000134208) masstab=0
Type 3 (bulge):   358578  (tot=     0002354161) masstab=0
Type 4 (stars):        0  (tot=     0000000000) masstab=0
Type 5 (bndry):        0  (tot=     0000000000) masstab=0

unbinding of independent ones took 0.470438 sec
particles have returned to their original processor (0.677987 sec, presently allocated 18728.8 MB)

number of subhalo candidates that can be done independently=1214.
(Largest size is 166815, finding them took 5.6219 sec)
particles are marked (took 23.6355)
independent subhalos are assembled on individual CPUs for unbinding (0.489591 sec, (presently allocated=18728.8 MB)
 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  2127404611


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=5.54071 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=17144.2 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=17646.6 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 17646.6 Mbyte (on task=1), Smallest = 17646.6 Mbyte, Average = 17646.6 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2965 0     ProcessedFlag     55.4764      57.4332  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle    221.9056     279.3388  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin    221.9056     501.2444  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin    221.9056     723.1499  allocate_memory()/allocate.c/61
   1 2969 0                 P  16421.0134   17144.1633  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes     23.0782   17167.3040  domain_allocate()/domain.c/570
   1 2973 0        domain_key    443.8112   17611.1152  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      1.7752   17612.8963  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      1.7752   17614.6715  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      1.7752   17616.4468  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      1.7752   17618.2220  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      1.7752   17619.9992  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      1.7752   17621.7764  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes     24.8534   17646.6299  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
unbinding of independent ones took 6.50444 sec
particles have returned to their original processor (0.673302 sec, presently allocated 18728.8 MB)
Before=102633
After=103401
NTopleaves= 90476  NTopnodes=103401 (space for 465370)

number of subhalo candidates that can be done independently=137.
(Largest size is 462390, finding them took 6.58529 sec)
gravity work-load balance=1.0004   memory-balance=1.00039   SPH work-load balance=0
iter=0 exchange of 2108994229 particles (ret=0)
domain decomposition done. (took 29.0512 sec)
begin Peano-Hilbert order...
particles are marked (took 21.4618)
independent subhalos are assembled on individual CPUs for unbinding (0.518264 sec, (presently allocated=18728.8 MB)
Peano-Hilbert done.
Freed 16.5696 MByte in top-level domain structure

Allocated 7296.25 MByte for BH-tree, and 0.345139 Mbyte for top-leaves.  (presently allocted 24446 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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...
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...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 24788.8 Mbyte (on task=73), Smallest = 24788.2 Mbyte, Average = 24788.7 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  73 2965 0     ProcessedFlag     55.4764      57.4332  allocate_memory()/allocate.c/52
  73 2966 0  NextActiveParticle    221.9056     279.3388  allocate_memory()/allocate.c/55
  73 2967 0     NextInTimeBin    221.9056     501.2444  allocate_memory()/allocate.c/58
  73 2968 0     PrevInTimeBin    221.9056     723.1499  allocate_memory()/allocate.c/61
  73 2969 0                 P  16421.0134   17144.1633  allocate_memory()/allocate.c/67
  73 2972 0          TopNodes      5.1278   17149.3536  domain_allocate()/domain.c/570
  73 2973 0   DomainNodeIndex      0.3451   17149.6987  force_treeallocate()/forcetree.c/4800
  73 2974 0        Nodes_base   3737.4805   20887.1793  force_treeallocate()/forcetree.c/4803
  73 2975 0     Extnodes_base   3114.5671   24001.7464  force_treeallocate()/forcetree.c/4811
  73 2976 0          Nextnode    222.3000   24224.0464  force_treeallocate()/forcetree.c/4820
  73 2977 0            Father    221.9056   24445.9520  force_treeallocate()/forcetree.c/4827
  73 2978 0           Ngblist     63.4266   24509.3786  density()/density.c/690
  73 2979 0              Left    126.8532   24636.2318  density()/density.c/692
  73 2980 0             Right    126.8532   24763.0850  density()/density.c/693
  73 2981 0    DataIndexTable      7.0175   24770.1025  density()/density.c/738
  73 2982 0      DataNodeList     18.7134   24788.8160  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/z_0.101.hdf5
GetCoolingTables: Redshift 2 /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/z_0.155.hdf5

Begin to compute FoF group catalogues...  (presently allocated=24446 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=17144.2 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=17646.6 MB)
Before=94017
After=103937
NTopleaves= 90945  NTopnodes=103937 (space for 465370)
gravity work-load balance=1.00047   memory-balance=1.00047   SPH work-load balance=0
iter=0 exchange of 2108120493 particles (ret=0)
domain decomposition done. (took 24.241 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 16.5451 MByte in top-level domain structure
unbinding of independent ones took 39.761 sec
particles have returned to their original processor (0.683899 sec, presently allocated 18728.8 MB)

Comoving linking length: 0.00901189    (presently allocated=17149.4 MB)
Tree construction.

number of subhalo candidates that can be done independently=14.
(Largest size is 1853101, finding them took 3.03682 sec)

Start linking particles (presently allocated=25206.9 MB)
particles are marked (took 12.1536)
independent subhalos are assembled on individual CPUs for unbinding (0.467772 sec, (presently allocated=18728.8 MB)
unbinding of independent ones took 5.65135 sec
particles have returned to their original processor (0.659522 sec, presently allocated 18728.8 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 1853101, finding them took 3.0287 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=1853101 ... maximum alloacted 18729.1 MB
took 17.988 sec
collective unbinding of nr=1 (2) of length=22602863 ... links on local processor done (took 167.941 sec).
Marked=0228207724 out of the 2124916242 primaries which are linked

linking across processors (presently allocated=25530.9 MB) 
have done 0002883665 cross links (processed 0228207724, took 25.4661 sec)
have done 0001279811 cross links (processed 0190759859, took 24.1527 sec)
maximum alloacted 18729.1 MB
have done 0000920995 cross links (processed 0166923232, took 22.2567 sec)
took 202.751 sec

the collective unbinding of remaining halos took 229.774 sec

found 8072 bound substructures in FoF group of length 22602863
determination of parent subhalo took 0.0664501 sec (presently allocated 18729.1 MB)
have done 0000618361 cross links (processed 0119657552, took 20.4734 sec)
have done 0000400685 cross links (processed 0076443830, took 19.4609 sec)
have done 0000260649 cross links (processed 0041133205, took 12.2185 sec)
have done 0000172961 cross links (processed 0027287474, took 5.38725 sec)
have done 0000110373 cross links (processed 0027324735, took 14.3086 sec)
have done 0000069129 cross links (processed 0014771243, took 7.46162 sec)
have done 0000039119 cross links (processed 0005237183, took 9.39127 sec)
have done 0000026938 cross links (processed 0001062840, took 0.931077 sec)
have done 0000020166 cross links (processed 0000610086, took 0.429552 sec)
have done 0000011437 cross links (processed 0000272230, took 0.272191 sec)
have done 0000004497 cross links (processed 0000082892, took 0.227096 sec)
have done 0000001655 cross links (processed 0000029050, took 0.224046 sec)
have done 0000000651 cross links (processed 0000019267, took 0.231508 sec)
have done 0000000288 cross links (processed 0000013632, took 0.23301 sec)
have done 0000000145 cross links (processed 0000004624, took 0.22247 sec)
have done 0000000077 cross links (processed 0000002139, took 0.221346 sec)
have done 0000000027 cross links (processed 0000000466, took 0.214934 sec)
have done 0000000010 cross links (processed 0000000123, took 0.209348 sec)
have done 0000000004 cross links (processed 0000000026, took 0.213927 sec)
have done 0000000001 cross links (processed 0000000009, took 0.21099 sec)
have done 0000000000 cross links (processed 0000000002, took 0.215455 sec)
Local groups found.

group finding took = 333.307 sec
Start finding nearest dm-particle (presently allocated=25206.9 MB)
still finding nearest... (presently allocated=25474.3 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.565741 sec
compiling local group data and catalogue took = 6.47019 sec

Total number of groups with at least 32 particles: 1284773
Largest group has 137266522 particles.
Total number of particles in groups: 1293579451

group properties are now allocated.. (presently allocated=18175.1 MB)
computation of group properties took = 0.646478 sec
start global sorting of group catalogues number 24
LargestGroup = 107004.606943; SmallestGroup = 0.024945
tagging gas particles with halo masses took = 0.299352 sec
Group catalogues globally sorted. took = 5.30374 sec
starting saving of group catalogue number 24
data//groups_024_z000p155
Group catalogues number 24 saved. took = 14.9735 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 7.17701 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 2.52325 sec
Tree construction for species 1 (2124916242).
tree build for species 1 took 7.0941 sec
finding densities, mode 1 
determining substructure properties took 334.066 sec (presently allocated 18729.1 MB)
processing of collective halos took 6408.15 sec
sort of local particles()() took 4.40884 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm
ngb iteration 1: need to repeat for 1186660179 particles. (took 269.893 sec)
ngb iteration 2: need to repeat for 0624053192 particles. (took 114.484 sec)
ngb iteration 3: need to repeat for 0465778350 particles. (took 52.9476 sec)
ngb iteration 4: need to repeat for 0396181010 particles. (took 33.1521 sec)
ngb iteration 5: need to repeat for 0344652618 particles. (took 25.461 sec)
ngb iteration 6: need to repeat for 0281990538 particles. (took 21.1129 sec)
ngb iteration 7: need to repeat for 0208023759 particles. (took 17.4603 sec)
ngb iteration 8: need to repeat for 0138954809 particles. (took 12.314 sec)
ngb iteration 9: need to repeat for 0086201669 particles. (took 8.42484 sec)
ngb iteration 10: need to repeat for 0050952221 particles. (took 5.59083 sec)
ngb iteration 11: need to repeat for 0029285793 particles. (took 3.63766 sec)
ngb iteration 12: need to repeat for 0016603476 particles. (took 2.39907 sec)
ngb iteration 13: need to repeat for 0009369339 particles. (took 1.63046 sec)
ngb iteration 14: need to repeat for 0004927090 particles. (took 1.10303 sec)
ngb iteration 15: need to repeat for 0002139661 particles. (took 0.739838 sec)
ngb iteration 16: need to repeat for 0001086915 particles. (took 0.452153 sec)
ngb iteration 17: need to repeat for 0000586424 particles. (took 0.331906 sec)
ngb iteration 18: need to repeat for 0000322622 particles. (took 0.271199 sec)
ngb iteration 19: need to repeat for 0000176917 particles. (took 0.250363 sec)
ngb iteration 20: need to repeat for 0000094764 particles. (took 0.233649 sec)
ngb iteration 21: need to repeat for 0000049174 particles. (took 0.222262 sec)
ngb iteration 22: need to repeat for 0000024531 particles. (took 0.21867 sec)
ngb iteration 23: need to repeat for 0000011718 particles. (took 0.217206 sec)
ngb iteration 24: need to repeat for 0000005364 particles. (took 0.212802 sec)
ngb iteration 25: need to repeat for 0000002355 particles. (took 0.218256 sec)
ngb iteration 26: need to repeat for 0000000939 particles. (took 0.215322 sec)
ngb iteration 27: need to repeat for 0000000358 particles. (took 0.215723 sec)
ngb iteration 28: need to repeat for 0000000141 particles. (took 0.217264 sec)
ngb iteration 29: need to repeat for 0000000049 particles. (took 0.213569 sec)
ngb iteration 30: need to repeat for 0000000012 particles. (took 0.209739 sec)
ngb iteration 31: need to repeat for 0000000005 particles. (took 0.210869 sec)
ngb iteration 32: need to repeat for 0000000001 particles. (took 0.210912 sec)
final operations ... 
density and smoothing length for species 1 took 578.381 sec
Tree construction.
tree build took 7.10637 sec
finding densities, mode 4 
final operations ... 
density and smoothing length for species 4 took 2.43443 sec
Tree construction.
tree build took 7.07838 sec
finding densities, mode 5 
final operations ... 
density and smoothing length for species 5 took 2.43416 sec
Tree construction for species 0 (0).
tree build for species 0 took 0.0667219 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
density() of species 0 took 13.2624 sec
Tree construction for species 1 (2124916242).
tree build for species 1 took 7.09862 sec
density() of species 1 took 0 sec
Tree construction for species 4 (0).
tree build for species 4 took 0.0755739 sec
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 13.2423 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.109584 sec
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
density() of species 5 took 13.2896 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 6.86346 sec
saving densities took 11.8833 sec

Number of FOF halos treated with collective SubFind code = 4
(the adopted size-limit for the collective algorithm was 40719852 particles.)
the other 1284769 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 287584 - 740408500 

subfind_exchange()() took 6.57828 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=33615.4 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=34117.8 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 34117.8 Mbyte (on task=0), Smallest = 19198.3 Mbyte, Average = 19776.6 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     55.4764      57.4321  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    221.9056     279.3377  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    221.9056     501.2433  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    221.9056     723.1489  allocate_memory()/allocate.c/61
   0 2969 0                 P  16421.0134   17144.1623  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      5.1544   17149.3791  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList    380.4206   17529.7997  fof_fof()/fof.c/249
   0 2974 0         FOF_GList    634.0343   18163.8340  fof_fof()/fof.c/337
   0 2975 0             Group     11.2361   18175.0702  fof_fof()/fof.c/380
   0 2976 0          SubGroup  15440.2868   33615.3570  subfind()/subfind.c/376
   0 2979 0          TopNodes     23.0782   33638.4977  domain_allocate()/domain.c/570
   0 2980 0        domain_key    443.8112   34082.3089  domain_Decomposition()/domain.c/231
   0 2991 0        domainWork      1.7752   34084.0900  domain_Decomposition()/domain.c/254
   0 2992 0     domainWorkSph      1.7752   34085.8652  domain_Decomposition()/domain.c/256
   0 2993 0       domainCount      1.7752   34087.6405  domain_Decomposition()/domain.c/258
   0 2994 0    domainCountSph      1.7752   34089.4157  domain_Decomposition()/domain.c/260
   0 2999 0  domainCountStars      1.7752   34091.1929  domain_Decomposition()/domain.c/272
   0 3004 0    domainCountBHs      1.7752   34092.9701  domain_Decomposition()/domain.c/285
   0 3005 0          topNodes     24.8534   34117.8235  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=67737
After=86097
NTopleaves= 75335  NTopnodes=86097 (space for 465370)
gravity work-load balance=1.00058   memory-balance=1.00058   SPH work-load balance=0
iter=0 exchange of 0136176918 particles (ret=0)
domain decomposition done. (took 6.22809 sec)
Freed 17.3617 MByte in top-level domain structure
------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     55.4764      57.4321  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    221.9056     279.3377  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    221.9056     501.2433  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    221.9056     723.1489  allocate_memory()/allocate.c/61
   0 2969 0                 P  16421.0134   17144.1623  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes      5.1544   17149.3791  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList    380.4206   17529.7997  fof_fof()/fof.c/249
   0 2974 0         FOF_GList    634.0343   18163.8340  fof_fof()/fof.c/337
   0 2975 0             Group     11.2361   18175.0702  fof_fof()/fof.c/380
   0 2976 0          SubGroup  15440.2868   33615.3570  subfind()/subfind.c/376
   0 2979 0          TopNodes      4.2696   33619.6891  domain_allocate()/domain.c/570
   0 2980 0   DomainNodeIndex      0.2874   33619.9765  force_treeallocate()/forcetree.c/4800
   0 2981 0        Nodes_base   3735.8963   37355.8728  force_treeallocate()/forcetree.c/4803
----------------------------------------------------------------------------------------

Task=0: Not enough memory in mymalloc_fullinfo() to allocate 3113.25 MB for variable 'Extnodes_base' at force_treeallocate()/forcetree.c/line 4811 (FreeBytes=2644.13 MB).
task 0: endrun called with an error level of 812


Rank 0 [Thu Sep 10 10:47:51 2015] [c0-0c1s15n3] application called MPI_Abort(MPI_COMM_WORLD, 812) - process 0
_pmiu_daemon(SIGCHLD): [NID 00127] [c0-0c1s15n3] [Thu Sep 10 10:47:54 2015] PE RANK 0 exit signal Aborted
[NID 00127] 2015-09-10 10:47:54 Apid 1876867: initiated application termination
Application 1876867 exit codes: 134
Application 1876867 exit signals: Killed
Application 1876867 resources: utime ~1179s, stime ~17s, Rss ~13729656, inblocks ~8250702, outblocks ~2957215
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =  128965.00 Mb (on task=68), Smallest =  128959.42 Mb (on task=22), Average =  128962.92 Mb
Total Mem:	 Largest =  129069.07 Mb (on task=0), Smallest =  129069.07 Mb (on task=0), Average =  129069.07 Mb
Committed_AS:	 Largest =     109.64 Mb (on task=22), Smallest =     104.07 Mb (on task=68), Average =     106.15 Mb
SwapTotal:	 Largest =       0.00 Mb (on task=0), Smallest =       0.00 Mb (on task=0), Average =       0.00 Mb
SwapFree:	 Largest =       0.00 Mb (on task=0), Smallest =       0.00 Mb (on task=0), Average =       0.00 Mb
AllocMem:	 Largest =     109.64 Mb (on task=22), Smallest =     104.07 Mb (on task=68), Average =     106.15 Mb
-------------------------------------------------------------------------------------------
Using 1 OpenMP threads

This is P-Gadget, version 3.0.

Running on 128 MPI tasks.

Using 1 OpenMP threads

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
        NOCALLSOFSYSTEM
svn version:exported

Size of particle structure       296  [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.N3':
RunLabel                           "HaloF22_DM-N1024_ID67"
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                      /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/
YieldTablePath                     /zhome/academic/HLRS/xap/xapybahe/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         0
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         40000
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                 /zhome/academic/HLRS/xap/xapybahe/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /zhome/academic/HLRS/xap/xapybahe/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 17142.2 MByte for particle storage.


reading file `data//snapshot_023_z000p199/snap_023_z000p199.0.hdf5' on task=0 (contains 133148094 particles.)
distributing this file to tasks 0-7
Type 0 (gas):          0  (tot=     0000000000) masstab=0
Type 1 (halo):  133035377  (tot=     2124916242) masstab=0.000779539
Type 2 (disk):      8385  (tot=     0000134208) masstab=0
Type 3 (bulge):   104332  (tot=     0002354161) 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 :  2127404611


Setting next time for grid output file to Time_next= 0.834624

Setting next time for line of sight file to Time_next= 0.836046

Setting next time for snipshot file to Time_next= 0.841907

Setting next time for fof output to Time_next= 0.841907
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=5.57865 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=17144.2 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=17646.6 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 17646.6 Mbyte (on task=1), Smallest = 17646.6 Mbyte, Average = 17646.6 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2965 0     ProcessedFlag     55.4764      57.4332  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle    221.9056     279.3388  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin    221.9056     501.2444  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin    221.9056     723.1499  allocate_memory()/allocate.c/61
   1 2969 0                 P  16421.0134   17144.1633  allocate_memory()/allocate.c/67
   1 2972 0          TopNodes     23.0782   17167.3040  domain_allocate()/domain.c/570
   1 2973 0        domain_key    443.8112   17611.1152  domain_Decomposition()/domain.c/231
   1 2984 0        domainWork      1.7752   17612.8963  domain_Decomposition()/domain.c/254
   1 2985 0     domainWorkSph      1.7752   17614.6715  domain_Decomposition()/domain.c/256
   1 2986 0       domainCount      1.7752   17616.4468  domain_Decomposition()/domain.c/258
   1 2987 0    domainCountSph      1.7752   17618.2220  domain_Decomposition()/domain.c/260
   1 2992 0  domainCountStars      1.7752   17619.9992  domain_Decomposition()/domain.c/272
   1 2997 0    domainCountBHs      1.7752   17621.7764  domain_Decomposition()/domain.c/285
   1 2998 0          topNodes     24.8534   17646.6299  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=102321
After=102937
NTopleaves= 90070  NTopnodes=102937 (space for 465370)
gravity work-load balance=1.00036   memory-balance=1.00035   SPH work-load balance=0
iter=0 exchange of 2107199970 particles (ret=0)
domain decomposition done. (took 29.4893 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 16.5909 MByte in top-level domain structure

Allocated 7296.17 MByte for BH-tree, and 0.34359 Mbyte for top-leaves.  (presently allocted 24445.8 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 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 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 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 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 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in the file...
Computing the weighted densities 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...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 24788.7 Mbyte (on task=123), Smallest = 24787.8 Mbyte, Average = 24788.6 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 123 2965 0     ProcessedFlag     55.4764      57.4332  allocate_memory()/allocate.c/52
 123 2966 0  NextActiveParticle    221.9056     279.3388  allocate_memory()/allocate.c/55
 123 2967 0     NextInTimeBin    221.9056     501.2444  allocate_memory()/allocate.c/58
 123 2968 0     PrevInTimeBin    221.9056     723.1499  allocate_memory()/allocate.c/61
 123 2969 0                 P  16421.0134   17144.1633  allocate_memory()/allocate.c/67
 123 2972 0          TopNodes      5.1048   17149.3306  domain_allocate()/domain.c/570
 123 2973 0   DomainNodeIndex      0.3436   17149.6742  force_treeallocate()/forcetree.c/4800
 123 2974 0        Nodes_base   3737.4380   20887.1122  force_treeallocate()/forcetree.c/4803
 123 2975 0     Extnodes_base   3114.5317   24001.6439  force_treeallocate()/forcetree.c/4811
 123 2976 0          Nextnode    222.2983   24223.9422  force_treeallocate()/forcetree.c/4820
 123 2977 0            Father    221.9056   24445.8478  force_treeallocate()/forcetree.c/4827
 123 2978 0           Ngblist     63.4240   24509.2718  density()/density.c/690
 123 2979 0              Left    126.8481   24636.1199  density()/density.c/692
 123 2980 0             Right    126.8481   24762.9679  density()/density.c/693
 123 2981 0    DataIndexTable      7.0175   24769.9855  density()/density.c/738
 123 2982 0      DataNodeList     18.7134   24788.6989  density()/density.c/740
----------------------------------------------------------------------------------------
GetCoolingTables: Redshift 1 /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/z_0.155.hdf5
GetCoolingTables: Redshift 2 /zhome/academic/HLRS/xap/xapybahe/BG_Tables/CoolingTables/z_0.211.hdf5

Begin to compute FoF group catalogues...  (presently allocated=24445.8 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=17144.2 MB)
Allocated 23.1407 MByte for top-level domain structure
use of 479.326 MB of temporary storage for domain decomposition... (presently allocated=17646.6 MB)
Before=93625
After=103585
NTopleaves= 90637  NTopnodes=103585 (space for 465370)
gravity work-load balance=1.00075   memory-balance=1.00076   SPH work-load balance=0
iter=0 exchange of 2111042273 particles (ret=0)
domain decomposition done. (took 24.0147 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 16.5612 MByte in top-level domain structure

Comoving linking length: 0.00901189    (presently allocated=17149.4 MB)
Tree construction.

Start linking particles (presently allocated=25206.1 MB)
links on local processor done (took 157.898 sec).
Marked=0223505966 out of the 2124916242 primaries which are linked

linking across processors (presently allocated=25529.9 MB) 
have done 0002858206 cross links (processed 0223505966, took 19.9128 sec)
have done 0001265791 cross links (processed 0185254484, took 17.5616 sec)
have done 0000912506 cross links (processed 0164294145, took 16.8912 sec)
have done 0000598056 cross links (processed 0113551651, took 14.7322 sec)
have done 0000375941 cross links (processed 0068429410, took 11.4196 sec)
have done 0000230455 cross links (processed 0033060116, took 7.583 sec)
have done 0000137926 cross links (processed 0014073815, took 3.60836 sec)
have done 0000085777 cross links (processed 0008204034, took 3.09455 sec)
have done 0000053587 cross links (processed 0009949639, took 3.11669 sec)
have done 0000027896 cross links (processed 0008751152, took 6.92027 sec)
have done 0000017752 cross links (processed 0001695556, took 0.66506 sec)
have done 0000012612 cross links (processed 0000495441, took 0.522701 sec)
have done 0000011320 cross links (processed 0000573428, took 0.595835 sec)
have done 0000008508 cross links (processed 0000237220, took 0.270927 sec)
have done 0000003208 cross links (processed 0000069465, took 0.248628 sec)
have done 0000000887 cross links (processed 0000015422, took 0.215282 sec)
have done 0000000280 cross links (processed 0000003758, took 0.217293 sec)
have done 0000000092 cross links (processed 0000001217, took 0.21563 sec)
have done 0000000022 cross links (processed 0000000387, took 0.213249 sec)
have done 0000000008 cross links (processed 0000000151, took 0.216951 sec)
have done 0000000001 cross links (processed 0000000040, took 0.212956 sec)
have done 0000000000 cross links (processed 0000000002, took 0.212502 sec)
Local groups found.

group finding took = 267.221 sec
Start finding nearest dm-particle (presently allocated=25206.1 MB)
still finding nearest... (presently allocated=25473.3 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 0.554852 sec
compiling local group data and catalogue took = 6.36144 sec

Total number of groups with at least 32 particles: 1306291
Largest group has 134747108 particles.
Total number of particles in groups: 1278072775

group properties are now allocated.. (presently allocated=18174.4 MB)
computation of group properties took = 0.64059 sec
start global sorting of group catalogues number 23
LargestGroup = 105040.625479; SmallestGroup = 0.024945
tagging gas particles with halo masses took = 0.29682 sec
Group catalogues globally sorted. took = 5.15012 sec
starting saving of group catalogue number 23
data//groups_023_z000p199
Group catalogues number 23 saved. took = 14.5305 sec

We now execute a parallel version of SUBFIND.
Tree construction.
tree build took 7.13929 sec
finding densities, mode 0 
final operations ... 
density and smoothing length for species 0 took 2.52795 sec
Tree construction for species 1 (2124916242).
tree build for species 1 took 7.08844 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 1181590982 particles. (took 280.554 sec)
ngb iteration 2: need to repeat for 0623127123 particles. (took 117.668 sec)
aprun: Apid 1876884: Caught signal Terminated, sending to application
aprun: Apid 1876884: Caught signal Terminated, sending to application
aprun: Apid 1876884: Caught signal Terminated, sending to application
aprun: Apid 1876884: Caught signal Terminated, sending to application
aprun: Apid 1876884: Caught signal Terminated, sending to application
aprun: Apid 1876884: Caught signal Terminated, sending to application
aprun: Apid 1876884: Caught signal Terminated, sending to application
aprun: Apid 1876884: Caught signal Terminated, sending to application
aprun: Apid 1876884: Caught signal Terminated, sending to application
aprun: Apid 1876884: Caught signal Terminated, sending to application
aprun: Apid 1876884: Caught signal Terminated, sending to application
aprun: Apid 1876884: Caught signal Terminated, sending to application
aprun: Apid 1876884: Caught signal Terminated, sending to application
aprun: Apid 1876884: Caught signal Terminated, sending to application
aprun: Apid 1876884: Caught signal Terminated, sending to application
aprun: Apid 1876884: Caught signal Terminated, sending to application
aprun: Apid 1876884: Caught signal Terminated, sending to application
aprun: Apid 1876884: Caught signal Terminated, sending to application
aprun: Apid 1876884: Caught signal Terminated, sending to application
aprun: Apid 1876884: Caught signal Terminated, sending to application
aprun: Apid 1876884: Caught signal Terminated, sending to application
aprun: Apid 1876884: Caught signal Terminated, sending to application

processing of local groups took took 4823.2 sec

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unsorting of local particles()() took 3.92754 sec
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subfind_exchange() (for return to original CPU)  took 14.488 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=15045.8 MB)
Allocated 15.1259 MByte for top-level domain structure
use of 245.003 MB of temporary storage for domain decomposition... (presently allocated=15305.9 MB)
Before=195041
After=213809
NTopleaves= 187083  NTopnodes=213809 (space for 302491)
gravity work-load balance=1.00044   memory-balance=1.00044   SPH work-load balance=0
iter=0 exchange of 2121188802 particles (ret=0)
domain decomposition done. (took 14.9591 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 4.05954 MByte in top-level domain structure
SO iteration 1: need to repeat for 0001364698 particles. (took 0.145584 sec)
SO iteration 2: need to repeat for 0001364698 particles. (took 0.120246 sec)
SO iteration 3: need to repeat for 0001364698 particles. (took 0.128884 sec)
SO iteration 4: need to repeat for 0001364698 particles. (took 0.13113 sec)
SO iteration 5: need to repeat for 0001364698 particles. (took 0.146184 sec)
SO iteration 6: need to repeat for 0001364698 particles. (took 0.125393 sec)
SO iteration 7: need to repeat for 0001364698 particles. (took 0.15708 sec)
SO iteration 8: need to repeat for 0001364698 particles. (took 0.132411 sec)
SO iteration 9: need to repeat for 0001364698 particles. (took 0.202979 sec)
SO iteration 10: need to repeat for 0001364698 particles. (took 0.141622 sec)
SO iteration 11: need to repeat for 0001364698 particles. (took 0.12715 sec)
SO iteration 12: need to repeat for 0001364698 particles. (took 0.135153 sec)
SO iteration 13: need to repeat for 0001364698 particles. (took 0.126808 sec)
SO iteration 14: need to repeat for 0001364698 particles. (took 0.129161 sec)
SO iteration 15: need to repeat for 0001363598 particles. (took 0.123555 sec)
SO iteration 16: need to repeat for 0000007528 particles. (took 0.119727 sec)
SO iteration 17: need to repeat for 0000000302 particles. (took 0.00308013 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.0007689 sec)
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SO iteration 18: need to repeat for 0000000195 particles. (took 0.00193 sec)
SO iteration 19: need to repeat for 0000000002 particles. (took 0.000766993 sec)
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SO iteration 9: need to repeat for 0001364698 particles. (took 0.100003 sec)
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SO iteration 11: need to repeat for 0001364698 particles. (took 0.098454 sec)
SO iteration 12: need to repeat for 0001364698 particles. (took 0.101498 sec)
SO iteration 13: need to repeat for 0001364698 particles. (took 0.0920219 sec)
SO iteration 14: need to repeat for 0001364698 particles. (took 0.0961611 sec)
SO iteration 15: need to repeat for 0001364658 particles. (took 0.0956089 sec)
SO iteration 16: need to repeat for 0001364558 particles. (took 0.0960069 sec)
SO iteration 17: need to repeat for 0000726104 particles. (took 0.091778 sec)
SO iteration 18: need to repeat for 0000019570 particles. (took 0.0447528 sec)
SO iteration 19: need to repeat for 0000000423 particles. (took 0.00561595 sec)
SO iteration 20: need to repeat for 0000000015 particles. (took 0.000684977 sec)
SO iteration 1: need to repeat for 0001364698 particles. (took 0.125074 sec)
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SO iteration 16: need to repeat for 0000007806 particles. (took 0.143919 sec)
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SO iteration 18: need to repeat for 0000000001 particles. (took 0.000696898 sec)
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SO iteration 18: need to repeat for 0000000019 particles. (took 0.000809908 sec)
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SO iteration 13: need to repeat for 0001364698 particles. (took 0.0924859 sec)
SO iteration 14: need to repeat for 0001364698 particles. (took 0.112503 sec)
SO iteration 15: need to repeat for 0001364669 particles. (took 0.09075 sec)
SO iteration 16: need to repeat for 0001364601 particles. (took 0.095423 sec)
SO iteration 17: need to repeat for 0001159156 particles. (took 0.107526 sec)
SO iteration 18: need to repeat for 0000054564 particles. (took 0.0859382 sec)
SO iteration 19: need to repeat for 0000000723 particles. (took 0.012356 sec)
SO iteration 20: need to repeat for 0000000034 particles. (took 0.00178695 sec)
determining spherical overdensity masses took 13.6304 sec
finding spherical overdensity particles took 2.62883 sec
determining contamination of halos took 0.446722 sec
Global sort of Groups took 0.140092 sec
Global sort of SubGroups took 0.391117 sec
Global sort of IDs took 2.20855 sec
Writing block 0 (GLEN), n=6330, ptype=0, dtype=0, ndim=1, bpb=4 bytes=25320d
Writing block 1 (GOFF), n=6330, ptype=0, dtype=0, ndim=1, bpb=4 bytes=25320d
Writing block 2 (MTOT), n=6330, ptype=0, dtype=1, ndim=1, bpb=4 bytes=25320d
Writing block 3 (GPOS), n=6330, ptype=0, dtype=1, ndim=3, bpb=4 bytes=75960d
Writing block 4 (MMEA), n=6330, ptype=0, dtype=1, ndim=1, bpb=4 bytes=25320d
Writing block 5 (RMEA), n=6330, ptype=0, dtype=1, ndim=1, bpb=4 bytes=25320d
Writing block 6 (MCRI), n=6330, ptype=0, dtype=1, ndim=1, bpb=4 bytes=25320d
Writing block 7 (RCRI), n=6330, ptype=0, dtype=1, ndim=1, bpb=4 bytes=25320d
Writing block 8 (MTOP), n=6330, ptype=0, dtype=1, ndim=1, bpb=4 bytes=25320d
Writing block 9 (RTOP), n=6330, ptype=0, dtype=1, ndim=1, bpb=4 bytes=25320d
Writing block 17 (NCON), n=6330, ptype=0, dtype=0, ndim=1, bpb=4 bytes=25320d
Writing block 18 (MCON), n=6330, ptype=0, dtype=1, ndim=1, bpb=4 bytes=25320d
Writing block 22 (NSUB), n=6330, ptype=0, dtype=0, ndim=1, bpb=4 bytes=25320d
Writing block 23 (FSUB), n=6330, ptype=0, dtype=0, ndim=1, bpb=4 bytes=25320d
Writing block 24 (SLEN), n=26707, ptype=1, dtype=0, ndim=1, bpb=4 bytes=106828d
Writing block 25 (SOFF), n=26707, ptype=1, dtype=0, ndim=1, bpb=4 bytes=106828d
Writing block 27 (MSUB), n=26707, ptype=1, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 28 (SPOS), n=26707, ptype=1, dtype=1, ndim=3, bpb=4 bytes=320484d
Writing block 29 (SVEL), n=26707, ptype=1, dtype=1, ndim=3, bpb=4 bytes=320484d
Writing block 30 (SCM ), n=26707, ptype=1, dtype=1, ndim=3, bpb=4 bytes=320484d
Writing block 33 (VMAX), n=26707, ptype=1, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 34 (RMAX), n=26707, ptype=1, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 35 (RHMS), n=26707, ptype=1, dtype=1, ndim=6, bpb=4 bytes=640968d
Writing block 36 (MTRH), n=26707, ptype=1, dtype=1, ndim=6, bpb=4 bytes=640968d
Writing block 37 (MBID), n=26707, ptype=1, dtype=2, ndim=1, bpb=8 bytes=213656d
Writing block 38 (GRNR), n=26707, ptype=1, dtype=0, ndim=1, bpb=4 bytes=106828d
Writing block 39 (SUBN), n=26707, ptype=1, dtype=0, ndim=1, bpb=4 bytes=106828d
Writing block 40 (SMST), n=26707, ptype=1, dtype=1, ndim=6, bpb=4 bytes=640968d
Writing block 53 (PID ), n=4026747, ptype=2, dtype=2, ndim=1, bpb=8 bytes=32213976d
Writing block 54 (SLEN), n=26707, ptype=1, dtype=0, ndim=6, bpb=4 bytes=640968d
Writing block 55 (STEN), n=26707, ptype=1, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 56 (SKEN), n=26707, ptype=1, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 57 (SUEN), n=26707, ptype=1, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 58 (SUIT), n=26707, ptype=1, dtype=1, ndim=9, bpb=4 bytes=961452d
Writing block 59 (BHMA), n=26707, ptype=1, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 60 (BHMD), n=26707, ptype=1, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 61 (SVD ), n=26707, ptype=1, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 62 (SVDH), n=26707, ptype=1, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 63 (HMPR), n=26707, ptype=1, dtype=1, ndim=6, bpb=4 bytes=640968d
Writing block 64 (SSFR), n=26707, ptype=1, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 65 (SSA ), n=26707, ptype=1, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 66 (SSBZ), n=26707, ptype=1, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 67 (SSIM), n=26707, ptype=1, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 68 (SSPI), n=26707, ptype=4, dtype=1, ndim=3, bpb=4 bytes=320484d
Writing block 69 (GSPI), n=26707, ptype=1, dtype=1, ndim=3, bpb=4 bytes=320484d
Writing block 70 (FSPI), n=26707, ptype=5, dtype=1, ndim=3, bpb=4 bytes=320484d
Writing block 71 (SFM ), n=26707, ptype=5, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 72 (SFMT), n=26707, ptype=5, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 73 (SFME), n=26707, ptype=5, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 74 (SFAE), n=26707, ptype=5, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 75 (SFKE), n=26707, ptype=5, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 76 (SFTE), n=26707, ptype=5, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 77 (SMWP), n=26707, ptype=5, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 78 (SMM ), n=26707, ptype=5, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 79 (SMMS), n=26707, ptype=5, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 80 (SFZ ), n=26707, ptype=5, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 81 (SFZS), n=26707, ptype=5, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 82 (SSIA), n=26707, ptype=5, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 83 (SIAS), n=26707, ptype=5, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 84 (SMET), n=26707, ptype=5, dtype=1, ndim=9, bpb=4 bytes=961452d
Writing block 85 (SMTS), n=26707, ptype=5, dtype=1, ndim=9, bpb=4 bytes=961452d
Writing block 86 (MF1 ), n=26707, ptype=5, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 87 (MeF1), n=26707, ptype=5, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 88 (MF  ), n=26707, ptype=5, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 89 (MeF2), n=26707, ptype=5, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 90 (MFA ), n=26707, ptype=5, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 91 (MeFA), n=26707, ptype=5, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 92 (NSPI), n=26707, ptype=6, dtype=1, ndim=3, bpb=4 bytes=320484d
Writing block 93 (NFM ), n=26707, ptype=6, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 94 (NFMT), n=26707, ptype=6, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 95 (NFME), n=26707, ptype=6, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 96 (NFAE), n=26707, ptype=6, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 97 (NFKE), n=26707, ptype=6, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 98 (NFTE), n=26707, ptype=6, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 99 (SMWP), n=26707, ptype=6, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 100 (SMM ), n=26707, ptype=6, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 101 (SMMS), n=26707, ptype=6, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 102 (SSIA), n=26707, ptype=6, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 103 (SIAS), n=26707, ptype=6, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 104 (SMET), n=26707, ptype=6, dtype=1, ndim=9, bpb=4 bytes=961452d
Writing block 105 (SMTS), n=26707, ptype=6, dtype=1, ndim=9, bpb=4 bytes=961452d
Writing block 106 (MF1 ), n=26707, ptype=6, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 107 (MeF1), n=26707, ptype=6, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 108 (MF2 ), n=26707, ptype=6, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 109 (MeF2), n=26707, ptype=6, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 110 (MFA ), n=26707, ptype=6, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 111 (MeFA), n=26707, ptype=6, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 112 (SM  ), n=26707, ptype=4, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 113 (SFKE), n=26707, ptype=4, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 114 (SFAE), n=26707, ptype=4, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 115 (SMWP), n=26707, ptype=4, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 116 (SMM ), n=26707, ptype=4, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 117 (SMMS), n=26707, ptype=4, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 118 (SSIA), n=26707, ptype=4, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 119 (SIAS), n=26707, ptype=4, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 120 (SMET), n=26707, ptype=4, dtype=1, ndim=9, bpb=4 bytes=961452d
Writing block 121 (SMTS), n=26707, ptype=4, dtype=1, ndim=9, bpb=4 bytes=961452d
Writing block 122 (MF1 ), n=26707, ptype=4, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 123 (MeF1), n=26707, ptype=4, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 124 (MF2 ), n=26707, ptype=4, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 125 (MeF2), n=26707, ptype=4, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 126 (MFA ), n=26707, ptype=4, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 127 (MeFA), n=26707, ptype=4, dtype=1, ndim=1, bpb=4 bytes=106828d
Writing block 128 (MMe5), n=6330, ptype=0, dtype=1, ndim=1, bpb=4 bytes=25320d
Writing block 129 (RMe5), n=6330, ptype=0, dtype=1, ndim=1, bpb=4 bytes=25320d
Writing block 130 (MCr5), n=6330, ptype=0, dtype=1, ndim=1, bpb=4 bytes=25320d
Writing block 131 (RCr5), n=6330, ptype=0, dtype=1, ndim=1, bpb=4 bytes=25320d
Writing block 132 (MMe2), n=6330, ptype=0, dtype=1, ndim=1, bpb=4 bytes=25320d
Writing block 133 (RMe2), n=6330, ptype=0, dtype=1, ndim=1, bpb=4 bytes=25320d
Writing block 134 (MCr2), n=6330, ptype=0, dtype=1, ndim=1, bpb=4 bytes=25320d
Writing block 135 (RCr2), n=6330, ptype=0, dtype=1, ndim=1, bpb=4 bytes=25320d
Writing block 136 (MAPT), n=26707, ptype=7, dtype=1, ndim=60, bpb=4 bytes=6409680d
Writing block 137 (SAPT), n=26707, ptype=8, dtype=1, ndim=10, bpb=4 bytes=1068280d
Writing block 138 (VAPT), n=26707, ptype=9, dtype=1, ndim=10, bpb=4 bytes=1068280d
Writing block 139 (BEGY), n=4026747, ptype=2, dtype=1, ndim=1, bpb=4 bytes=16106988d
Subgroup catalogues saved. took = 60.6773 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 3.241676e+00
 eagle_ph_key_ort: type= 2 timed by volker 6.153202e-02
 eagle_ph_key_ort: type= 3 timed by volker 8.680701e-02
 eagle_ph_key_ort: type= 4 timed by volker 8.680701e-02
 eagle_ph_key_ort: type= 5 timed by volker 8.680701e-02
 eagle_ph_key_ort: timing parallel sort = 3.443553e+00
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 15481852000

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 15235.4 Mbyte (on task=0), Smallest = 9571.81 Mbyte, Average = 9726.65 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     27.7382      29.8849  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    110.9528     140.8377  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    110.9528     251.7905  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    110.9528     362.7432  allocate_memory()/allocate.c/61
   0 2969 0                 P   8210.5067    8573.2499  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.3773    8583.7522  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList    190.2166    8773.9689  fof_fof()/fof.c/249
   0 2974 0         FOF_GList    317.0277    9090.9966  fof_fof()/fof.c/337
   0 2975 0             Group      7.2372    9098.2338  fof_fof()/fof.c/380
   0 2976 0          SubGroup   5947.5333   15045.7672  subfind()/subfind.c/376
   0 2977 0   sort_index_data    189.5882   15235.3554  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 144, max_elements= 3167622 number of bytes = 456137568

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 17279.2 Mbyte (on task=0), Smallest = 11618.8 Mbyte, Average = 11774.1 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.2500       2.1467  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag     27.7382      29.8849  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    110.9528     140.8377  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    110.9528     251.7905  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    110.9528     362.7432  allocate_memory()/allocate.c/61
   0 2969 0                 P   8210.5067    8573.2499  allocate_memory()/allocate.c/67
   0 2972 0          TopNodes     10.3773    8583.7522  domain_allocate()/domain.c/570
   0 2973 0         FOF_PList    190.2166    8773.9689  fof_fof()/fof.c/249
   0 2974 0         FOF_GList    317.0277    9090.9966  fof_fof()/fof.c/337
   0 2975 0             Group      7.2372    9098.2338  fof_fof()/fof.c/380
   0 2976 0          SubGroup   5947.5333   15045.7672  subfind()/subfind.c/376
   0 2977 0   sort_index_data    189.5882   15235.3554  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2978 0          sort_idx     12.0835   15247.4389  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2979 0       idx_to_recv     12.0835   15259.5224  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2980 0       idx_to_send     12.0835   15271.6059  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2981 0           sendbuf    435.0067   15706.6126  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2982 0           recvbuf    435.0067   16141.6193  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2983 0            result   1137.5294   17279.1487  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 1.408705e+01
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 15481852000
 eagle_fetch_elements: max_bytes= 504, max_elements= 2105376 number of bytes = 1061109504
 eagle_ph_key_ort: timing parallel SphP exchange = 1.080322e-02
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 15481852000
 eagle_fetch_elements: max_bytes= 384, max_elements= 2753184 number of bytes = 1057222656
 eagle_ph_key_ort: timing parallel MetP exchange = 5.791187e-04
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 15481852000
 eagle_fetch_elements: max_bytes= 256, max_elements= 4098251 number of bytes = 1049152256
 eagle_ph_key_ort: timing parallel BHP exchange = 2.648830e-04
Sorting particle-data by peano-hilbert key took = 19.2325 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 148, max_elements= 2977374 number of bytes= 440651352
 eagle_ph_restore: timing parallel P exchange = 1.291659e+01
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 2105376 number of bytes= 1061109504
 eagle_ph_restore: timing parallel SphP exchange = 3.767014e-03
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2753184 number of bytes= 1057222656
 eagle_ph_restore: timing parallel MetP exchange = 1.312971e-03
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 4098251 number of bytes= 1049152256
 eagle_ph_restore: timing parallel BHP exchange = 1.458168e-03
Restoring original order after ph key sorting took = 12.9963 sec

finished writing particle file...

Finished with SUBFIND.  (total time=12120.1 sec)

Finished computing FoF groups.  (presently allocated=8583.75 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=8573.25 MB)
Allocated 15.1259 MByte for top-level domain structure
use of 245.003 MB of temporary storage for domain decomposition... (presently allocated=8833.38 MB)
Before=188649
After=209201
NTopleaves= 183051  NTopnodes=209201 (space for 302491)
gravity work-load balance=1.00074   memory-balance=1.00074   SPH work-load balance=0
iter=0 exchange of 2120417366 particles (ret=0)
domain decomposition done. (took 14.11 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 4.27048 MByte in top-level domain structure
Tree construction.
Finished FOF, total time doing fof/subfind = 12268.7 s
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.14) Attempting to use an MPI routine after finalizing MPICH
Application 1876745 exit codes: 1
Application 1876745 resources: utime ~3141655s, stime ~14896s, Rss ~13567336, inblocks ~119241425, outblocks ~133722292
